CN110839106A - Display control method and device - Google Patents
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- CN110839106A CN110839106A CN201810939827.7A CN201810939827A CN110839106A CN 110839106 A CN110839106 A CN 110839106A CN 201810939827 A CN201810939827 A CN 201810939827A CN 110839106 A CN110839106 A CN 110839106A
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- H—ELECTRICITY
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- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/72—Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
- H04M1/724—User interfaces specially adapted for cordless or mobile telephones
- H04M1/72448—User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions
- H04M1/72454—User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions according to context-related or environment-related conditions
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/30—Monitoring
- G06F11/32—Monitoring with visual or acoustical indication of the functioning of the machine
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- G—PHYSICS
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- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0481—Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance
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- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
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Abstract
The embodiment of the application provides a display control method and device, relates to the technical field of communication, and can flexibly display network icons. The specific scheme is as follows: the method comprises the steps that a first device obtains mapping information, wherein the mapping information comprises a plurality of corresponding relations, the corresponding relations are used for representing the corresponding relations between n first parameter information and a plurality of network icons, n is a positive integer, the first parameter information comprises indication information, frequency information, service types, operator information, position information, connection state information or scene information, and the connection state information comprises an idle state, an inactive state or a connection state; the method comprises the steps that a first device obtains m pieces of first parameter information from a second device and/or obtains m pieces of first parameter information according to the working state of the first device, wherein m is a positive integer smaller than or equal to n and the like; and the first equipment displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon. The embodiment of the application is used for displaying the network icon.
Description
Technical Field
The embodiment of the application relates to the technical field of communication, in particular to a display control method and device.
Background
After the terminal is started, the terminal registers the mobile communication network by interacting the attachment information with the core network of the mobile communication network. After the network registration is successful, the terminal resides or operates under the registered network and displays the icon of the registered network in the status bar. If the registered network does not change, the network icon displayed by the terminal does not change; after the registered network power grid terminal is re-registered to another network, the terminal displays an icon of the other network.
For example, when the terminal registers with the 4th generation mobile communication technology (4G) network, the terminal may display a "4G" icon in the status bar. Before the 4G network is disconnected, the terminal keeps displaying the 4G icon. After the 4G network is disconnected and the terminal falls back to a third generation mobile communication technology (3rd-generation mobile communication technology, 3G) network, the terminal updates the 4G icon to be a 3G icon.
Disclosure of Invention
The embodiment of the application provides a display control method and device, which can flexibly display network icons.
In order to achieve the above purpose, the embodiment of the present application adopts the following technical solutions:
in a first aspect, a technical solution of the present application provides a display control method, including: the first device obtains mapping information, wherein the mapping information includes a plurality of corresponding relations, the plurality of corresponding relations are used for representing the corresponding relations between n first parameter information and a plurality of network icons, n is a positive integer, the first parameter information includes indication information, frequency information, service type, operator information, position information, connection state information, or scene information, and the connection state information includes idle state, inactive state, or connection state. The first equipment acquires m pieces of first parameter information from the second equipment and/or according to the working state of the first equipment, wherein m is a positive integer less than or equal to n and the like. And the first equipment displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon.
In the scheme, the first device can dynamically display different network icons according to different first parameter information acquired from the second device or acquired according to the working state of the first device, and the icon of the network registered by the first device is not displayed in a holding manner like the prior art, so that the display of the network icon can be flexibly controlled, and the operation and maintenance requirements of an operator can be met more conveniently.
With reference to the first aspect, in a first possible implementation manner of the first aspect, the context information includes: in the first working scene, a cell in which the first equipment is positioned is a cell of a first communication system and supports joint networking with a second communication system; or, in a second working scenario, the first device is registered in a core network of the second communication system through an air interface of the first communication system; or, in the third working scenario, the cell in which the first device is located is a cell of the second communication system; or, in a fourth working scenario, the first device is connected to a base station of the first communication system, and the first device has a secondary base station of the second communication system. Wherein the third work scenario includes: the service cell when the first device is in the connected state is a cell of a second communication system; or, the resident cell when the first device is in the idle state or the inactive state is a cell of the second communication system.
Thus, the first device can display different network icons according to different working scenes.
With reference to the first possible implementation manner of the first aspect, in a second possible implementation manner of the first aspect, the operating state of the first device includes: the service frequency of the cell in which the first device is located, the frequency of a signal of a cell adjacent to the cell in which the first device is located, the service currently used by the first device, the operator currently used by the first device, the current location of the first device, the current connection state of the first device, or the current working scene of the first device.
In this way, the first device may obtain the first parameter information according to the current operating state of the first device.
With reference to the first aspect or the first or second possible implementation manner of the first aspect, in a third possible implementation manner of the first aspect, the indication information is broadcast information received by the first device from the second device.
In this way, the first device can acquire the indication information according to the broadcast information received from the second device, thereby controlling the display of the network icon according to the indication information.
With reference to the first aspect or any one of the possible implementation manners of the first aspect, in a fourth possible implementation manner of the first aspect, the operator information includes a Public Land Mobile Network (PLMN) identifier.
In this way, the first device may control the display of the network icon according to the PLMN identification.
With reference to the first aspect or any one of the possible implementation manners of the first aspect, in a fifth possible implementation manner of the first aspect, the location information includes at least one of a country code, a provincial code, or Global Positioning System (GPS) information.
In this way, the first device may control the display of the network icon according to the country code, provincial code or global positioning system GPS information.
With reference to the first aspect or any one of the possible implementation manners of the first aspect, in a sixth possible implementation manner of the first aspect, the service type includes at least one of a Carrier Aggregation (CA) service, a Dual Connection (DC) service, or a Multiple Input Multiple Output (MIMO) service.
In this way, the first device may display different network icons depending on the different types of services used by the first device.
With reference to the first aspect or any one of the possible implementation manners of the first aspect, in a seventh possible implementation manner of the first aspect, the obtaining, by the first device, the mapping information includes: the method comprises the steps that first equipment obtains mapping information prefabricated on the first equipment; or the first device acquires the mapping information from a third device, wherein the third device is different from the second device.
That is, the first device may acquire the preset mapping information from the first device itself or from the third device.
With reference to the seventh possible implementation manner of the first aspect, in an eighth possible implementation manner of the first aspect, the obtaining, by the first device, mapping information prefabricated on the first device includes: the method comprises the steps that first equipment obtains mapping information prefabricated in a Subscriber Identity Module (SIM) card of the first equipment; or mapping information pre-manufactured in a memory of the first device is acquired.
That is, the mapping information may be preset in the SIM card or the memory of the first device.
With reference to any one of the second to eighth possible implementation manners of the first aspect, in a ninth possible implementation manner of the first aspect, the m pieces of first parameter information include indication information and frequency information, and the indication information is used to indicate whether to display a network icon of the second communication system; the frequency information is used for indicating whether the service frequency of the cell where the first device is located is a high-frequency signal, and the frequency of the high-frequency signal is greater than or equal to a preset value. The method for acquiring m pieces of first parameter information from the second device and/or according to the working state of the first device by the first device includes: the first device receives indication information from the second device; the first equipment acquires frequency information according to the service frequency of the cell where the first equipment is located. The first device displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon, and the method comprises the following steps: if the indication information indicates that a network icon of the second communication system is displayed, and the frequency information indicates that the service frequency of the cell where the first equipment is located is a high-frequency signal, the first equipment displays a first network icon of the second communication system; and if the indication information indicates that the network icon of the second communication system is displayed and the frequency information indicates that the service frequency of the cell in which the first equipment is located is not the high-frequency signal, the first equipment displays the second network icon of the second communication system.
In this scheme, the first device may search for a corresponding target network icon from the mapping information according to the acquired indication information and the frequency information, so as to display the target network icon.
With reference to any one of the second to eighth possible implementation manners of the first aspect, in a tenth possible implementation manner of the first aspect, the m pieces of first parameter information include frequency information and context information, where the frequency information is used to indicate whether a service frequency of a cell in which the first device is located is a high-frequency signal, and a frequency of the high-frequency signal is greater than or equal to a preset value. The method for acquiring m pieces of first parameter information from the second equipment and/or according to the working state of the first equipment by the first equipment comprises the following steps: the first equipment acquires frequency information according to the service frequency of the cell in which the first equipment is located; the first equipment acquires scene information according to the current working scene of the first equipment. The first device displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon, and the method comprises the following steps: and when the scene information is a third working scene or a fourth working scene, if the frequency information indicates that the service frequency of the cell in which the first equipment is located is a high-frequency signal, the first equipment displays a first network icon of the second communication system. And if the frequency information indicates that the service frequency of the cell in which the first equipment is positioned is not the high-frequency signal, the first equipment displays a second network icon of the second communication system.
In this scheme, the first device may search for a corresponding target network icon from the mapping information according to the acquired frequency information and scene information, so as to display the target network icon.
With reference to any one of the second to eighth possible implementation manners of the first aspect, in an eleventh possible implementation manner of the first aspect, the m pieces of first parameter information include frequency information and context information, where the frequency information is used to indicate that a service frequency of a cell in which the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of a neighboring cell of the second communication system and the operator, a frequency of the low-frequency signal is less than a preset value, and a frequency of the high-frequency signal is greater than or equal to the preset value. The method for acquiring m pieces of first parameter information from the second equipment and/or according to the working state of the first equipment by the first equipment comprises the following steps: the first equipment acquires frequency information according to the service frequency of the cell where the first equipment is located and the frequency of the signal of the adjacent cell of the cell where the first equipment is located; the first equipment acquires scene information according to the current working scene of the first equipment. The first device displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon, and the method comprises the following steps: when the scene information is a third working scene and the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, if the frequency information indicates that the first equipment has the coverage of a second communication system and a high-frequency signal of an adjacent cell of an operator, the first equipment displays a first network icon; and if the frequency information indicates that the first equipment is not covered by the high-frequency signals of the adjacent cells of the second communication system and the operator, the first equipment displays a second network icon.
In this scheme, the first device may search for a corresponding target network icon from the mapping information according to the acquired frequency information and scene information, so as to display the target network icon.
With reference to any one of the second to eighth possible implementation manners of the first aspect, in a twelfth possible implementation manner of the first aspect, the m pieces of first parameter information include frequency information, connection state information, and context information, where the frequency information is used to indicate that a service frequency of a cell in which the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of an adjacent cell of the second communication system and the operator, a frequency of the low-frequency signal is less than a preset value, and a frequency of the high-frequency signal is greater than or equal to the preset value. The method for acquiring m pieces of first parameter information from the second equipment and/or according to the working state of the first equipment by the first equipment comprises the following steps: the first equipment acquires frequency information according to the service frequency of the cell where the first equipment is located and the frequency of signals of adjacent cells of the cell where the first equipment is located; the first equipment acquires connection state information according to the current connection state; the first equipment acquires scene information according to the current working scene of the first equipment. The first device displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon, and the method comprises the following steps: when the scene information is a third working scene and the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, if the connection state information is in an idle state or an inactive state and the frequency information indicates that the first equipment is covered by high-frequency signals of a second communication system and an adjacent cell of an operator, the first equipment displays a third network icon; if the connection state information is in a connection state and the frequency information indicates that the first equipment is covered by high-frequency signals of the second communication system and the adjacent cell of the operator, the first equipment displays a fourth network icon; if the connection state information is in an idle state or an inactive state, and the frequency information indicates that the first device does not have the high-frequency signal coverage of the second communication system and the adjacent cell of the operator, the first device displays a fifth network icon; and if the connection state information is in a connection state and the frequency information indicates that the first equipment is not covered by the high-frequency signals of the adjacent cells of the second communication system and the operator, the first equipment displays a sixth network icon. The third network icon, the fourth network icon, the fifth network icon and the sixth network icon may be the same or different.
In this scheme, the first device may search for a corresponding target network icon from the mapping information according to the acquired frequency information, connection state information, and scene information, so as to display the target network icon.
With reference to any one of the second to eighth possible implementation manners of the first aspect, in a thirteenth possible implementation manner of the first aspect, the m pieces of first parameter information include indication information, frequency information, and scene information, where the indication information is used to indicate whether to display a network icon of the second communication system; the frequency information is used for indicating that the service frequency of the cell where the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of a second communication system and an adjacent cell of an operator, wherein the frequency of the low-frequency signal is smaller than a preset value, and the frequency of the high-frequency signal is larger than or equal to the preset value. The method for acquiring m pieces of first parameter information from the second equipment and/or according to the working state of the first equipment by the first equipment comprises the following steps: the first device receives indication information from the second device; the first equipment acquires frequency information according to the service frequency of the cell in which the first equipment is positioned and the frequency of the signal of the adjacent cell of the cell in which the first equipment is positioned; the first equipment acquires scene information according to the current working scene of the first equipment. The first device displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon, and the method comprises the following steps: when the indication information indicates that a network icon of a second communication system is displayed, the scene information is a first working scene or a second working scene, and the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, if the frequency information indicates that the first equipment is covered by high-frequency signals of the second communication system and an adjacent cell of an operator, the first equipment displays the first network icon of the second communication system; and if the frequency information indicates that the first equipment is not covered by the high-frequency signals of the adjacent cells of the second communication system and the operator, the first equipment displays a second network icon of the second communication system.
In this scheme, the first device may search for a corresponding target network icon from the mapping information according to the acquired indication information, frequency information, and scene information, so as to display the target network icon.
With reference to any one of the second to eighth possible implementation manners of the first aspect, in a fourteenth possible implementation manner of the first aspect, the m pieces of first parameter information include indication information, frequency information, connection state information, and scene information, where the indication information is used to indicate whether to display a network icon of the second communication system; the frequency information is used for indicating that the service frequency of the cell where the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of a second communication system and an adjacent cell of an operator, wherein the frequency of the low-frequency signal is smaller than a preset value, and the frequency of the high-frequency signal is larger than or equal to the preset value. The method for acquiring m pieces of first parameter information from the second equipment and/or according to the working state of the first equipment by the first equipment comprises the following steps: the first device receives indication information from the second device; the first equipment acquires frequency information according to the service frequency of the cell where the first equipment is located and the frequency of signals of adjacent cells of the cell where the first equipment is located; the first equipment acquires connection state information according to the current connection state; the first equipment acquires scene information according to the current working scene of the first equipment. The first device displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon, and the method comprises the following steps: when the scene information is a first working scene or a second working scene, the indication information indicates to display a network icon of the second communication system, and the frequency information indicates that the service frequency of the cell where the first device is located is a low-frequency signal, if the state information is in an idle state or an inactive state and the frequency information indicates that the first device is covered by high-frequency signals of the second communication system and an adjacent cell of an operator, the first device displays a seventh network icon of the second communication system; if the state information is in an idle state or an inactive state, and the frequency information indicates that the first device does not have the high-frequency signal coverage of the second communication system and the adjacent cell of the operator, the first device displays an eighth network icon of the second communication system; if the state information is in a connected state and the frequency information indicates that the first device has high-frequency signal coverage of the second communication system and an adjacent cell of an operator, the first device displays a ninth network icon of the second communication system; and if the state information is in a connection state and the frequency information indicates that the first equipment is not covered by the high-frequency signals of the second communication system and the adjacent cell of the operator, the first equipment displays a tenth network icon of the second communication system. Wherein the seventh network icon, the eighth network icon, the ninth network icon, and the tenth network icon may be the same or different.
In this scheme, the first device may search for a corresponding target network icon from the mapping information according to the acquired indication information, frequency information, connection state information, and scene information, so as to display the target network icon.
With reference to any one of the eleventh to fourteenth possible implementation manners of the first aspect, in a fifteenth possible implementation manner of the first aspect, before the first device acquires the frequency information, the method further includes: the first equipment acquires detection information, wherein the detection information comprises second parameter information, and the second parameter information comprises at least one of measurement information or time information of high-frequency signals of adjacent cells; the first device measures signals of the neighboring cells according to the detection information.
Therefore, when the first device performs display control of the network icon, the first device can directly measure the signal of the adjacent cell according to the measurement information of the adjacent cell of the cell where the first device is located in the acquired detection information, and signal measurement is not required after the measurement information such as the frequency of the adjacent cell is searched in a blind search mode, so that the time and power consumption of the first device in full frequency search can be saved, and the working duration of the first device is prolonged. And, the first device can intermittently measure signals of neighboring cells according to the time information in the acquired detection information without performing measurement continuously in real time, and thus power consumption of the first device can be further reduced.
With reference to the fifteenth possible implementation manner of the first aspect, in a sixteenth possible implementation manner of the first aspect, the second parameter information includes at least one of measurement information or time information of a cell of the second communication system; and/or at least one of measurement information or time information of a high-frequency signal of a cell adjacent to the cell in which the first device is located, wherein the frequency of the high-frequency signal is greater than or equal to a preset value.
With reference to the fifteenth or sixteenth possible implementation manner of the first aspect, in a seventeenth possible implementation manner of the first aspect, the acquiring, by the first device, the detection information includes: the method comprises the steps that first equipment obtains detection information prefabricated on the first equipment; alternatively, the first device acquires the detection information from the third device.
In this way, the first device can directly measure the signals of the neighboring cells according to the measurement information or the time information of the high frequency signals of the neighboring cells acquired from the first device or from the third device.
With reference to any one of the fifteenth to the seventeenth possible implementation manners of the first aspect, in an eighteenth possible implementation manner of the first aspect, the detection information further includes a correspondence between the second parameter information and at least one third parameter information, and the third parameter information includes operator information or location information.
In this way, the first device may measure signals of the neighboring cells according to different measurement information or time information of the neighboring cells corresponding to different operator information or location information.
With reference to any one of the fifteenth to eighteenth possible implementation manners of the first aspect, in a nineteenth possible implementation manner of the first aspect, the measurement information includes frequency information or cell information of a cell.
In this way, the first device may measure signals of the neighboring cells according to the frequency information or cell information of the cells in the measurement information of the neighboring cells.
With reference to any one of the fifteenth to nineteenth possible implementation manners of the first aspect, in a twentieth possible implementation manner of the first aspect, the time information is period information for the first device to perform measurement, and the period information is an interval between a start time of the first measurement and a start time of the second measurement, or an interval between an end time of the first measurement and a start time of the second measurement when the first device performs two adjacent measurements; or the interval between the end time of the first measurement and the end time of the second measurement.
In this way, the first device can measure signals of neighboring cells according to periodic information in the detection information.
With reference to any one of the fifteenth to the twentieth possible implementation manners of the first aspect, in a twenty-first possible implementation manner of the first aspect, the time information is applied to a timer, and the time information is used for at least one of: the time information is used for measuring when the timer is overtime and starting or restarting the timer; or, the time information is used for starting or restarting a timer when the first device finishes measuring; or, the time information is used for resetting or stopping or canceling the timer when the first device performs cell reselection; or the time information is used for starting a timer after the first device receives a second message sent by the second device; or, the time information is used for the first device to measure after receiving the second message sent by the second device, and the timer is started or restarted when the measurement is started, or the timer is started or restarted when the measurement is finished.
In this way, the first device can measure signals of neighboring cells according to the timer information in the detection information.
With reference to any one of the second to eighth possible implementation manners of the first aspect, in a twenty-second possible implementation manner of the first aspect, the m pieces of first parameter information include a service type and scene information; the method for acquiring m pieces of first parameter information from the second equipment and/or according to the working state of the first equipment by the first equipment comprises the following steps: the method comprises the steps that first equipment obtains a service type according to a service currently used by the first equipment; the method comprises the steps that first equipment obtains scene information according to a current working scene of the first equipment; the first device displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon, and the method comprises the following steps: when the scene information is a third working scene, if the service type is Carrier Aggregation (CA) service, the first equipment displays an eleventh network icon; if the service type is the dual connectivity DC service, the first device displays a twelfth network icon; if the service type is a multiple-input multiple-output (MIMO) service, the first equipment displays a thirteenth network icon; otherwise, the first device displays a fourteenth network icon.
In this scheme, the first device may search for a corresponding target network icon from the mapping information according to the acquired scene information and the service type, so as to display the target network icon.
With reference to any one of the second to eighth possible implementation manners of the first aspect, in a twenty-third possible implementation manner of the first aspect, the obtaining, by the first device, the m pieces of first parameter information from the second device and/or according to the working state of the first device includes: the first equipment acquires scene information according to the current working scene of the first equipment. The first device displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon, and the method comprises the following steps: and when the scene information is a second working scene, the first equipment displays a second network icon of the second communication system.
In this scheme, the first device may search for a corresponding target network icon from the mapping information according to the acquired scene information, so as to display the target network icon.
With reference to the first aspect or any one of the possible implementation manners of the first aspect, in a twenty-fourth possible implementation manner of the first aspect, the first communication system is a 4G system, and the second communication system is a (5th-generation mobility management technology, 5G) system.
In this way, the first device may display a network icon of the 5G system or a network icon of the 4G system.
In a second aspect, the present technical solution provides a measurement method, including: the first device obtains detection information, wherein the detection information includes second parameter information, and the second parameter information includes at least one of measurement information or time information of a cell adjacent to the cell where the first device is located. The first device measures signals of the neighboring cells according to the detection information.
In the scheme, the first device can directly measure the signal of the adjacent cell according to the measurement information of the adjacent cell of the cell where the first device is located in the acquired detection information, and the signal measurement is not required to be carried out after the measurement information such as the frequency of the adjacent cell is searched in a blind search mode, so that the time and the power consumption of the first device in full-frequency search can be saved, and the working time of the first device is prolonged. And, the first device can intermittently measure signals of neighboring cells according to the time information in the acquired detection information without performing measurement continuously in real time, and thus power consumption of the first device can be further reduced.
With reference to the second aspect, in a first possible implementation manner of the second aspect, the second parameter information includes at least one of measurement information or time information of a neighboring cell in the target communication system; and/or at least one of measurement information or time information of a high frequency signal of a neighboring cell in the target communication system, the frequency of the high frequency signal being greater than or equal to a preset value.
With reference to the second aspect or the first possible implementation manner of the second aspect, in a second possible implementation manner of the second aspect, the acquiring, by the first device, the detection information includes: the method comprises the steps that first equipment obtains detection information prefabricated on the first equipment; alternatively, the first device acquires the detection information from the third device.
With reference to the second aspect or any one of the possible implementation manners of the second aspect, in a second possible design of the second aspect, the detection information further includes a corresponding relationship between the second parameter information and at least one third parameter information, and the third parameter information includes operator information or location information.
With reference to the second aspect or any one of the possible implementation manners of the second aspect, in a third possible design of the second aspect, the operator information includes a public land mobile network PLMN identity; the location information includes at least one of a country code or a provincial or municipal code or GPS positioning information.
With reference to the second aspect or any one of the possible implementation manners of the second aspect, in a fourth possible design of the second aspect, the measurement information includes frequency information or cell information of a cell.
With reference to the second aspect or any one of the possible implementation manners of the second aspect, in a fifth possible design of the second aspect, the time information is period information measured by the first device, and the period information is an interval between a start time of a first measurement and a start time of a second measurement, or an interval between an end time of the first measurement and a start time of the second measurement when the first device performs two adjacent measurements; or the interval between the end time of the first measurement and the end time of the second measurement.
With reference to the second aspect or any one of the possible implementations of the second aspect, in a sixth possible design of the second aspect, the time information is applied to a timer, and the time information is used for at least one of: the time information is used for the first equipment to measure when the timer is overtime, and the timer is started or restarted; or, the time information is used for starting or restarting a timer when the first device finishes the measurement; or the time information is used for starting a timer after the first device acquires the detection information; or, the time information is used for the first device to measure after acquiring the information, and the timer is started or restarted when the measurement is started, or the timer is started or restarted when the measurement is finished.
In a third aspect, a technical solution of the present application provides a first device, including: the first obtaining unit is configured to obtain mapping information, where the mapping information includes multiple corresponding relationships, the multiple corresponding relationships are used to represent corresponding relationships between n pieces of first parameter information and multiple network icons, n is a positive integer, the first parameter information includes indication information, frequency information, a service type, operator information, location information, connection status information, or context information, and the connection status information includes an idle state, an inactive state, or a connection state. And the second acquisition unit is used for acquiring m pieces of first parameter information from the second equipment and/or according to the working state of the first equipment, wherein m is a positive integer less than or equal to n and the like. And the display unit is used for displaying the network icons according to the corresponding relation between the m pieces of first parameter information and the network icons.
With reference to the third aspect, in a first possible implementation manner of the third aspect, the context information includes: in the first working scene, a cell in which the first equipment is positioned is a cell of a first communication system and supports joint networking with a second communication system; or, in a second working scenario, the first device is registered in a core network of the second communication system through an air interface of the first communication system; or, in the third working scenario, the cell in which the first device is located is a cell of the second communication system; or, in a fourth working scenario, the first device is connected to a base station of the first communication system, and the first device has a secondary base station of the second communication system. Wherein the third work scenario includes: the service cell when the first device is in the connected state is a cell of a second communication system; or, the resident cell when the first device is in the idle state or the inactive state is a cell of the second communication system.
With reference to the first possible implementation manner of the third aspect, in a second possible implementation manner of the third aspect, the working state of the first device includes: the service frequency of the cell in which the first device is located, the frequency of a signal of a cell adjacent to the cell in which the first device is located, the service currently used by the first device, the operator currently used by the first device, the current location of the first device, the current connection state of the first device, or the current working scene of the first device.
With reference to the third aspect or the first or second possible implementation manner of the third aspect, in a third possible implementation manner of the third aspect, the indication information is broadcast information received by the first device from the second device.
With reference to the third aspect or any one of the possible implementation manners of the third aspect, in a fourth possible implementation manner of the third aspect, the operator information includes a public land mobile network PLMN identity.
With reference to the third aspect or any one of possible implementation manners of the third aspect, in a fifth possible implementation manner of the third aspect, the location information includes at least one of a country code, a provincial code, or global positioning system GPS information.
With reference to the third aspect or any one of the possible implementation manners of the third aspect, in a sixth possible implementation manner of the third aspect, the service type includes at least one of a carrier aggregation CA service, a dual connectivity DC service, or a multiple input multiple output, MIMO, service.
With reference to the third aspect or any one of possible implementation manners of the third aspect, in a seventh possible implementation manner of the third aspect, the first obtaining unit is specifically configured to: acquiring mapping information prefabricated on first equipment; alternatively, the mapping information is obtained from a third device, the third device being different from the second device.
With reference to the seventh possible implementation manner of the third aspect, in an eighth possible implementation manner of the third aspect, the first obtaining unit is specifically configured to: acquiring mapping information prefabricated in a Subscriber Identity Module (SIM) card of first equipment; alternatively, mapping information pre-fabricated in a memory of the first device is obtained.
With reference to any one of the second to eighth possible implementation manners of the third aspect, in a ninth possible implementation manner of the third aspect, the m pieces of first parameter information include indication information and frequency information, and the indication information is used to indicate whether to display a network icon of the second communication system; the frequency information is used for indicating whether the service frequency of the cell where the first device is located is a high-frequency signal, and the frequency of the high-frequency signal is greater than or equal to a preset value. The second obtaining unit is specifically configured to: receiving indication information from the second device; and acquiring frequency information according to the service frequency of the cell in which the first equipment is located. The display unit is specifically configured to: if the indication information indicates that the network icon of the second communication system is displayed and the frequency information indicates that the service frequency of the cell where the first equipment is located is a high-frequency signal, displaying a first network icon of the second communication system; and if the indication information indicates that the network icon of the second communication system is displayed and the frequency information indicates that the service frequency of the cell in which the first equipment is located is not a high-frequency signal, displaying the second network icon of the second communication system.
With reference to any one of the second to eighth possible implementation manners of the third aspect, in a tenth possible implementation manner of the third aspect, the m pieces of first parameter information include frequency information and context information, the frequency information is used to indicate whether a service frequency of a cell in which the first device is located is a high-frequency signal, and a frequency of the high-frequency signal is greater than or equal to a preset value. The second obtaining unit is specifically configured to: acquiring frequency information according to the service frequency of a cell in which the first equipment is located; and acquiring scene information according to the current working scene of the first device. The display unit is specifically configured to: and when the scene information is a third working scene or a fourth working scene, if the frequency information indicates that the service frequency of the cell in which the first equipment is positioned is a high-frequency signal, displaying a first network icon of the second communication system. And if the frequency information indicates that the service frequency of the cell in which the first equipment is positioned is not the high-frequency signal, displaying a second network icon of the second communication system.
With reference to any one of the second to eighth possible implementation manners of the third aspect, in an eleventh possible implementation manner of the third aspect, the m pieces of first parameter information include frequency information and context information, where the frequency information is used to indicate that a service frequency of a cell in which the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of a neighboring cell of the second communication system and the operator, a frequency of the low-frequency signal is less than a preset value, and a frequency of the high-frequency signal is greater than or equal to the preset value. The second obtaining unit is specifically configured to: acquiring frequency information according to the service frequency of the cell in which the first equipment is positioned and the frequency of the signal of the adjacent cell of the cell in which the first equipment is positioned; and acquiring scene information according to the current working scene of the first device. The display unit is particularly adapted to: when the scene information is a third working scene and the frequency information indicates that the service frequency of the cell in which the first equipment is located is a low-frequency signal, if the frequency information indicates that the first equipment has the coverage of a second communication system and a high-frequency signal of an adjacent cell of an operator, displaying a first network icon; and if the frequency information indicates that the first equipment is not covered by the high-frequency signals of the adjacent cells of the second communication system and the operator, displaying a second network icon.
With reference to any one of the second to eighth possible implementation manners of the third aspect, in a twelfth possible implementation manner of the third aspect, the m pieces of first parameter information include frequency information, connection state information, and scenario information, where the frequency information is used to indicate that a service frequency of a cell in which the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of an adjacent cell of the second communication system and the operator, a frequency of the low-frequency signal is smaller than a preset value, and a frequency of the high-frequency signal is greater than or equal to the preset value. The second obtaining unit is specifically configured to: acquiring frequency information according to the service frequency of the cell in which the first equipment is positioned and the frequency of the signal of the adjacent cell of the cell in which the first equipment is positioned; acquiring connection state information according to the current connection state; and acquiring scene information according to the current working scene of the first device. The display unit is specifically configured to: when the scene information is a third working scene and the frequency information indicates that the service frequency of the cell in which the first equipment is located is a low-frequency signal, if the connection state information is in an idle state or an inactive state and the frequency information indicates that the first equipment is covered by a high-frequency signal of a second communication system and an adjacent cell of an operator, displaying a third network icon; if the connection state information is in a connection state and the frequency information indicates that the first device is covered by high-frequency signals of adjacent cells of the second communication system and the operator, displaying a fourth network icon; if the connection state information is in an idle state or an inactive state, and the frequency information indicates that the first device does not have the high-frequency signal coverage of the second communication system and the adjacent cell of the operator, displaying a fifth network icon; and if the connection state information is in a connection state and the frequency information indicates that the first equipment is not covered by the high-frequency signals of the adjacent cells of the second communication system and the operator, displaying a sixth network icon. The third network icon, the fourth network icon, the fifth network icon and the sixth network icon may be the same or different.
With reference to any one of the second to eighth possible implementation manners of the third aspect, in a thirteenth possible implementation manner of the third aspect, the m pieces of first parameter information include indication information, frequency information, and scene information, where the indication information is used to indicate whether to display a network icon of the second communication system; the frequency information is used for indicating that the service frequency of the cell where the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of a second communication system and an adjacent cell of an operator, wherein the frequency of the low-frequency signal is smaller than a preset value, and the frequency of the high-frequency signal is larger than or equal to the preset value. The second obtaining unit is specifically configured to: receiving indication information from the second device; acquiring frequency information according to the service frequency of the cell in which the first equipment is positioned and the frequency of the signal of the adjacent cell of the cell in which the first equipment is positioned; and acquiring scene information according to the current working scene of the first device. The display unit is specifically configured to: when the indication information indicates that a network icon of the second communication system is displayed, the scene information is a first working scene or a second working scene, and the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, if the frequency information indicates that the first equipment is covered by a high-frequency signal of the second communication system and an adjacent cell of an operator, the first network icon of the second communication system is displayed; and if the frequency information indicates that the first equipment is not covered by the high-frequency signals of the adjacent cells of the second communication system and the operator, displaying a second network icon of the second communication system.
With reference to any one of the second to eighth possible implementation manners of the third aspect, in a fourteenth possible implementation manner of the third aspect, the m pieces of first parameter information include indication information, frequency information, connection state information, and scene information, where the indication information is used to indicate whether to display a network icon of the second communication system; the frequency information is used for indicating that the service frequency of the cell where the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of a second communication system and an adjacent cell of an operator, wherein the frequency of the low-frequency signal is smaller than a preset value, and the frequency of the high-frequency signal is larger than or equal to the preset value. The second acquisition unit is specifically configured to: receiving indication information from the second device; acquiring frequency information according to the service frequency of the cell in which the first equipment is positioned and the frequency of the signal of the adjacent cell of the cell in which the first equipment is positioned; acquiring connection state information according to the current connection state; and acquiring scene information according to the current working scene of the first device. The display unit is specifically configured to: when the scene information is a first working scene or a second working scene, the indication information indicates to display a network icon of the second communication system, and the frequency information indicates that the service frequency of the cell where the first device is located is a low-frequency signal, if the state information is in an idle state or an inactive state and the frequency information indicates that the first device is covered by high-frequency signals of the second communication system and an adjacent cell of an operator, a seventh network icon of the second communication system is displayed; if the state information is in an idle state or an inactive state, and the frequency information indicates that the first device does not have the high-frequency signal coverage of the second communication system and the adjacent cell of the operator, displaying an eighth network icon of the second communication system; if the state information is in a connected state and the frequency information indicates that the first device has high-frequency signal coverage of the second communication system and an adjacent cell of an operator, displaying a ninth network icon of the second communication system; and if the state information is in a connection state and the frequency information indicates that the first equipment is not covered by the high-frequency signals of the second communication system and the adjacent cell of the operator, displaying a tenth network icon of the second communication system. Wherein the seventh network icon, the eighth network icon, the ninth network icon, and the tenth network icon may be the same or different.
With reference to any one of the eleventh to fourteenth possible implementation manners of the third aspect, in a fifteenth possible implementation manner of the third aspect, the first device further includes a third obtaining unit and a measuring unit. The third acquiring unit is configured to acquire detection information before the second acquiring unit acquires the frequency information, the detection information including second parameter information, the second parameter information including at least one of measurement information or time information of a high-frequency signal of a neighboring cell. The measurement unit is used for measuring the signals of the adjacent cells according to the detection information.
With reference to the fifteenth possible implementation manner of the third aspect, in a sixteenth possible implementation manner of the third aspect, the second parameter information includes at least one of measurement information or time information of a cell of the second communication system; and/or at least one of measurement information or time information of a high-frequency signal of a cell adjacent to the cell in which the first device is located, wherein the frequency of the high-frequency signal is greater than or equal to a preset value.
With reference to the fifteenth or sixteenth possible implementation manner of the third aspect, in a seventeenth possible implementation manner of the third aspect, the third obtaining unit is specifically configured to: acquiring detection information prefabricated on first equipment; alternatively, the first device acquires the detection information from the third device.
With reference to any one of the fifteenth to seventeenth possible implementation manners of the third aspect, in an eighteenth possible implementation manner of the third aspect, the detection information further includes a correspondence between the second parameter information and at least one third parameter information, and the third parameter information includes operator information or location information.
With reference to any one of the fifteenth to eighteenth possible implementation manners of the third aspect, in a nineteenth possible implementation manner of the third aspect, the measurement information includes frequency information or cell information of the cell.
With reference to any one of the fifteenth to nineteenth possible implementation manners of the third aspect, in a twentieth possible implementation manner of the third aspect, the time information is period information for the first device to perform measurement, and the period information is an interval between a start time of the first measurement and a start time of the second measurement or an interval between an end time of the first measurement and a start time of the second measurement when the first device performs two adjacent measurements; or the interval between the end time of the first measurement and the end time of the second measurement.
With reference to any one of the fifteenth to the twentieth possible implementation manners of the third aspect, in a twenty-first possible implementation manner of the third aspect, the time information is applied to a timer, and the time information is used for at least one of: the time information is used for measuring when the timer is overtime and starting or restarting the timer; or, the time information is used for starting or restarting a timer when the first device finishes measuring; or, the time information is used for resetting or stopping or canceling the timer when the first device performs cell reselection; or the time information is used for starting a timer after the first device receives a second message sent by the second device; or, the time information is used for the first device to measure after receiving the second message sent by the second device, and the timer is started or restarted when the measurement is started, or the timer is started or restarted when the measurement is finished.
With reference to any one of the second to eighth possible implementation manners of the third aspect, in a twenty-second possible implementation manner of the third aspect, the m pieces of first parameter information include a service type and scene information. The second obtaining unit is specifically configured to: acquiring a service type according to a service currently used by first equipment; and acquiring scene information according to the current working scene of the first device. The display unit is specifically configured to: when the scene information is a third working scene, if the service type is Carrier Aggregation (CA) service, displaying an eleventh network icon; displaying a twelfth network icon if the service type is the dual connectivity DC service; if the service type is a Multiple Input Multiple Output (MIMO) service, displaying a thirteenth network icon; otherwise, a fourteenth network icon is displayed.
With reference to any one of the second to eighth possible implementation manners of the third aspect, in a twenty-third possible implementation manner of the third aspect, the m pieces of first parameter information include scene information. The second obtaining unit is specifically configured to: and acquiring scene information according to the current working scene of the first device. The display unit is specifically configured to: and when the scene information is a second working scene, displaying a second network icon of the second communication system.
With reference to the third aspect or any one of the possible implementation manners of the third aspect, in a twenty-fourth possible implementation manner of the third aspect, the first communication system is a 4G system, and the second communication system is a 5G system.
In a fourth aspect, the present technical solution provides an electronic device, including: the detecting unit is configured to acquire detection information, where the detection information includes second parameter information, and the second parameter information includes at least one of measurement information or time information of a cell adjacent to a cell where the first device is located. And the measuring unit is used for measuring the signals of the adjacent cells according to the detection information.
With reference to the fourth aspect, in a first possible implementation manner of the fourth aspect, the second parameter information includes at least one of measurement information or time information of a neighboring cell in the target communication system; and/or at least one of measurement information or time information of a high frequency signal of a neighboring cell in the target communication system, the frequency of the high frequency signal being greater than or equal to a preset value.
With reference to the fourth aspect or the first possible implementation manner of the fourth aspect, in a second possible implementation manner of the fourth aspect, the obtaining unit is specifically configured to: acquiring detection information prefabricated on first equipment; alternatively, the detection information is acquired from a third device.
With reference to the fourth aspect or any one of the possible implementation manners of the fourth aspect, in a second possible design of the fourth aspect, the detection information further includes a correspondence between the second parameter information and at least one third parameter information, where the third parameter information includes operator information or location information.
With reference to the fourth aspect or any one of the possible implementation manners of the fourth aspect, in a third possible design of the fourth aspect, the operator information includes a public land mobile network PLMN identifier; the location information includes at least one of a country code or a provincial or municipal code or GPS positioning information.
With reference to the fourth aspect or any one of the possible implementation manners of the fourth aspect, in a fourth possible design of the fourth aspect, the measurement information includes frequency information or cell information of a cell.
With reference to the fourth aspect or any one of the possible implementation manners of the fourth aspect, in a fifth possible design of the fourth aspect, the time information is period information measured by the first device, and the period information is an interval between a start time of a first measurement and a start time of a second measurement, or an interval between an end time of the first measurement and a start time of the second measurement when the first device performs two adjacent measurements; or the interval between the end time of the first measurement and the end time of the second measurement.
With reference to the fourth aspect or any one of the possible implementations of the fourth aspect, in a sixth possible design of the fourth aspect, the time information is applied to a timer, and the time information is used for at least one of: the time information is used for the first equipment to measure when the timer is overtime, and the timer is started or restarted; or, the time information is used for starting or restarting a timer when the first device finishes the measurement; or the time information is used for starting a timer after the first device acquires the detection information; or, the time information is used for the first device to measure after acquiring the information, and the timer is started or restarted when the measurement is started, or the timer is started or restarted when the measurement is finished.
In a fifth aspect, the present technical solution provides a first device, including a display screen, one or more processors, and one or more memories; the display screen, the one or more memories coupled to the one or more processors, the one or more memories configured to store computer program code, the computer program code including computer instructions, when the one or more processors execute the computer instructions, the processors configured to obtain mapping information, the mapping information including a plurality of correspondences, the plurality of correspondences indicating correspondences of n first parameter information and a plurality of network icons, n being a positive integer, the first parameter information including indication information, frequency information, service type, operator information, location information, connection status information, or context information, the connection status information including idle status, inactive status, or connected status; and acquiring m pieces of first parameter information from the second equipment and/or according to the working state of the first equipment, wherein m is a positive integer less than or equal to n and the like. The display screen is used for displaying the network icons according to the corresponding relation between the m pieces of first parameter information and the network icons.
With reference to the fifth aspect, in a first possible implementation manner of the fifth aspect, the context information includes: in the first working scene, a cell in which the first equipment is positioned is a cell of a first communication system and supports joint networking with a second communication system; or, in a second working scenario, the first device is registered in a core network of the second communication system through an air interface of the first communication system; or, in the third working scenario, the cell in which the first device is located is a cell of the second communication system; or, in a fourth working scenario, the first device is connected to a base station of the first communication system, and the first device has a secondary base station of the second communication system. Wherein the third work scenario includes: the service cell when the first device is in the connected state is a cell of a second communication system; or, the resident cell when the first device is in the idle state or the inactive state is a cell of the second communication system.
With reference to the first possible implementation manner of the fifth aspect, in a second possible implementation manner of the fifth aspect, the operating state of the first device includes: the service frequency of the cell in which the first device is located, the frequency of a signal of a cell adjacent to the cell in which the first device is located, the service currently used by the first device, the operator currently used by the first device, the current location of the first device, the current connection state of the first device, or the current working scene of the first device.
With reference to the fifth aspect or the first or second possible implementation manner of the fifth aspect, in a third possible implementation manner of the fifth aspect, the indication information is broadcast information received by the first device from the second device.
With reference to the fifth aspect or any one of the possible implementation manners of the fifth aspect, in a fourth possible implementation manner of the fifth aspect, the operator information includes a public land mobile network PLMN identity.
With reference to the fifth aspect or any one of the possible implementation manners of the fifth aspect, in a fifth possible implementation manner of the fifth aspect, the location information includes at least one of a country code, a provincial code, or global positioning system GPS information.
With reference to the fifth aspect or any one of the possible implementation manners of the fifth aspect, in a sixth possible implementation manner of the fifth aspect, the service type includes at least one of a carrier aggregation CA service, a dual connectivity DC service, or a multiple input multiple output, MIMO, service.
With reference to the fifth aspect or any one of the possible implementation manners of the fifth aspect, in a seventh possible implementation manner of the fifth aspect, the processor is specifically configured to: acquiring mapping information prefabricated on first equipment; or, the mapping information is obtained from a third device, the third device being different from the second device.
With reference to the seventh possible implementation manner of the fifth aspect, in an eighth possible implementation manner of the fifth aspect, the processor is specifically configured to: acquiring mapping information prefabricated in a Subscriber Identity Module (SIM) card of first equipment; or mapping information pre-manufactured in a memory of the first device is acquired.
With reference to any one of the second to eighth possible implementation manners of the fifth aspect, in a ninth possible implementation manner of the fifth aspect, the m pieces of first parameter information include indication information and frequency information, and the indication information is used to indicate whether to display a network icon of the second communication system; the frequency information is used for indicating whether the service frequency of the cell where the first device is located is a high-frequency signal, and the frequency of the high-frequency signal is greater than or equal to a preset value. The processor is specifically configured to: receiving indication information from the second device; and acquiring frequency information according to the service frequency of the cell in which the first equipment is positioned. The display screen is specifically used for: if the indication information indicates that the network icon of the second communication system is displayed and the frequency information indicates that the service frequency of the cell where the first equipment is located is a high-frequency signal, displaying a first network icon of the second communication system; and if the indication information indicates that the network icon of the second communication system is displayed, and the frequency information indicates that the service frequency of the cell in which the first device is located is not a high-frequency signal, displaying the second network icon of the second communication system.
With reference to any one of the second to eighth possible implementation manners of the fifth aspect, in a tenth possible implementation manner of the fifth aspect, the m pieces of first parameter information include frequency information and context information, the frequency information is used to indicate whether a service frequency of a cell in which the first device is located is a high-frequency signal, and a frequency of the high-frequency signal is greater than or equal to a preset value. The treatment device is used for: acquiring frequency information according to the service frequency of a cell in which the first equipment is located; and acquiring scene information according to the current working scene of the first device. The display screen is specifically used for: and when the scene information is a third working scene or a fourth working scene, if the frequency information indicates that the service frequency of the cell in which the first equipment is positioned is a high-frequency signal, displaying a first network icon of the second communication system. And if the frequency information indicates that the service frequency of the cell in which the first equipment is positioned is not the high-frequency signal, displaying a second network icon of the second communication system.
With reference to any one of the second to eighth possible implementation manners of the fifth aspect, in an eleventh possible implementation manner of the fifth aspect, the m pieces of first parameter information include frequency information and scenario information, where the frequency information is used to indicate that a service frequency of a cell in which the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of a neighboring cell of the second communication system and the operator, a frequency of the low-frequency signal is less than a preset value, and a frequency of the high-frequency signal is greater than or equal to the preset value. The processor is specifically configured to: acquiring frequency information according to the service frequency of the cell in which the first equipment is positioned and the frequency of the signal of the adjacent cell of the cell in which the first equipment is positioned; and acquiring scene information according to the current working scene of the first device. The display screen is specifically used for: when the scene information is a third working scene and the frequency information indicates that the service frequency of the cell in which the first equipment is located is a low-frequency signal, if the frequency information indicates that the first equipment has the coverage of a second communication system and a high-frequency signal of an adjacent cell of an operator, displaying a first network icon; and if the frequency information indicates that the first equipment is not covered by the high-frequency signals of the adjacent cells of the second communication system and the operator, displaying a second network icon.
With reference to any one of the second to eighth possible implementation manners of the fifth aspect, in a twelfth possible implementation manner of the fifth aspect, the m pieces of first parameter information include frequency information, connection state information, and scene information, where the frequency information is used to indicate that a service frequency of a cell in which the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of an adjacent cell of the second communication system and the operator, a frequency of the low-frequency signal is less than a preset value, and a frequency of the high-frequency signal is greater than or equal to the preset value. The processor is specifically configured to: acquiring frequency information according to the service frequency of the cell in which the first equipment is positioned and the frequency of the signal of the adjacent cell of the cell in which the first equipment is positioned; acquiring connection state information according to the current connection state; and acquiring scene information according to the current working scene of the first device. The display screen is specifically used for: when the scene information is a third working scene and the frequency information indicates that the service frequency of the cell in which the first equipment is located is a low-frequency signal, if the connection state information is in an idle state or an inactive state and the frequency information indicates that the first equipment is covered by a high-frequency signal of a second communication system and an adjacent cell of an operator, displaying a third network icon; if the connection state information is in a connection state and the frequency information indicates that the first device is covered by high-frequency signals of adjacent cells of the second communication system and the operator, displaying a fourth network icon; if the connection state information is in an idle state or an inactive state, and the frequency information indicates that the first device does not have the high-frequency signal coverage of the second communication system and the adjacent cell of the operator, displaying a fifth network icon; and if the connection state information is in a connection state and the frequency information indicates that the first equipment is not covered by the high-frequency signals of the adjacent cells of the second communication system and the operator, displaying a sixth network icon. The third network icon, the fourth network icon, the fifth network icon and the sixth network icon may be the same or different.
With reference to any one of the second to eighth possible implementation manners of the fifth aspect, in a thirteenth possible implementation manner of the fifth aspect, the m pieces of first parameter information include indication information, frequency information, and scene information, and the indication information is used to indicate whether to display a network icon of the second communication system; the frequency information is used for indicating that the service frequency of the cell where the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of a second communication system and an adjacent cell of an operator, wherein the frequency of the low-frequency signal is smaller than a preset value, and the frequency of the high-frequency signal is larger than or equal to the preset value. The processor is specifically configured to: receiving indication information from the second device; acquiring frequency information according to the service frequency of the cell in which the first equipment is positioned and the frequency of the signal of the adjacent cell of the cell in which the first equipment is positioned; and acquiring scene information according to the current working scene of the first device. The display screen is specifically used for: when the indication information indicates that a network icon of the second communication system is displayed, the scene information is a first working scene or a second working scene, and the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, if the frequency information indicates that the first equipment is covered by high-frequency signals of the second communication system and an adjacent cell of an operator, the first network icon of the second communication system is displayed; and if the frequency information indicates that the first equipment is not covered by the high-frequency signals of the adjacent cells of the second communication system and the operator, displaying a second network icon of the second communication system.
With reference to any one of the second to eighth possible implementation manners of the fifth aspect, in a fourteenth possible implementation manner of the fifth aspect, the m pieces of first parameter information include indication information, frequency information, connection state information, and scene information, where the indication information is used to indicate whether to display a network icon of the second communication system; the frequency information is used for indicating that the service frequency of the cell where the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of a second communication system and an adjacent cell of an operator, wherein the frequency of the low-frequency signal is smaller than a preset value, and the frequency of the high-frequency signal is larger than or equal to the preset value. The processor is specifically configured to: receiving indication information from the second device; acquiring frequency information according to the service frequency of the cell in which the first equipment is positioned and the frequency of the signal of the adjacent cell of the cell in which the first equipment is positioned; acquiring connection state information according to the current connection state; and acquiring scene information according to the current working scene of the first device. The display screen is specifically used for: when the scene information is a first working scene or a second working scene, the indication information indicates to display a network icon of the second communication system, and the frequency information indicates that the service frequency of the cell where the first device is located is a low-frequency signal, if the state information is in an idle state or an inactive state and the frequency information indicates that the first device is covered by high-frequency signals of the second communication system and an adjacent cell of an operator, a seventh network icon of the second communication system is displayed; if the state information is in an idle state or an inactive state, and the frequency information indicates that the first device does not have the high-frequency signal coverage of the second communication system and the adjacent cell of the operator, displaying an eighth network icon of the second communication system; if the state information is in a connected state and the frequency information indicates that the first device is covered by high-frequency signals of the second communication system and the adjacent cell of the operator, displaying a ninth network icon of the second communication system; and if the state information is in a connection state and the frequency information indicates that the first equipment does not have the coverage of the second communication system and the high-frequency signal of the adjacent cell of the operator, displaying a tenth network icon of the second communication system. Wherein the seventh network icon, the eighth network icon, the ninth network icon, and the tenth network icon may be the same or different.
With reference to any one of the eleventh to fourteenth possible implementation manners of the fifth aspect, in a fifteenth possible implementation manner of the fifth aspect, the first device further includes a third obtaining unit, configured to obtain detection information before the second obtaining unit obtains the frequency information, where the detection information includes second parameter information, and the second parameter information includes at least one of measurement information or time information of a high-frequency signal of a neighboring cell; the first device measures signals of the neighboring cells according to the detection information.
With reference to the fifteenth possible implementation manner of the fifth aspect, in a sixteenth possible implementation manner of the fifth aspect, the second parameter information includes at least one of measurement information or time information of a cell of the second communication system; and/or at least one of measurement information or time information of a high-frequency signal of a cell adjacent to the cell in which the first device is located, wherein the frequency of the high-frequency signal is greater than or equal to a preset value.
With reference to the fifteenth or sixteenth possible implementation manner of the fifth aspect, in a seventeenth possible implementation manner of the fifth aspect, the third obtaining unit is specifically configured to: acquiring detection information prefabricated on first equipment; alternatively, the first device acquires the detection information from the third device.
With reference to any one of the fifteenth to seventeenth possible implementation manners of the fifth aspect, in an eighteenth possible implementation manner of the fifth aspect, the detection information further includes a correspondence between the second parameter information and at least one third parameter information, and the third parameter information includes operator information or location information.
With reference to any one of the fifteenth to eighteenth possible implementation manners of the fifth aspect, in a nineteenth possible implementation manner of the fifth aspect, the measurement information includes frequency information or cell information of a cell.
With reference to any one of the fifteenth to nineteenth possible implementation manners of the fifth aspect, in a twentieth possible implementation manner of the fifth aspect, the time information is period information for the first device to perform measurement, and the period information is an interval between a start time of the first measurement and a start time of the second measurement, or an interval between an end time of the first measurement and a start time of the second measurement when the first device performs two adjacent measurements; or the interval between the end time of the first measurement and the end time of the second measurement.
With reference to any one of the fifteenth to the twentieth possible implementation manners of the fifth aspect, in a twenty-first possible implementation manner of the fifth aspect, the time information is applied to a timer, and the time information is used for at least one of: the time information is used for measuring when the timer is overtime and starting or restarting the timer; or, the time information is used for starting or restarting a timer when the first device finishes measuring; or, the time information is used for resetting or stopping or canceling the timer when the first device performs cell reselection; or the time information is used for starting a timer after the first device receives a second message sent by the second device; or, the time information is used for the first device to measure after receiving the second message sent by the second device, and the timer is started or restarted when the measurement is started, or the timer is started or restarted when the measurement is finished.
With reference to any one of the second to eighth possible implementation manners of the fifth aspect, in a twenty-second possible implementation manner of the fifth aspect, the m pieces of first parameter information include service types and scenario information. The processor is specifically configured to: acquiring a service type according to a service currently used by first equipment; and acquiring scene information according to the current working scene of the first device. The display screen is specifically used for: when the scene information is a third working scene, if the service type is Carrier Aggregation (CA) service, displaying an eleventh network icon; displaying a twelfth network icon if the service type is the dual connectivity DC service; if the service type is a multiple-input multiple-output (MIMO) service, displaying a thirteenth network icon; otherwise, a fourteenth network icon is displayed.
With reference to any one of the second to eighth possible implementation manners of the fifth aspect, in a twenty-third possible implementation manner of the fifth aspect, the m pieces of first parameter information include scene information. The processor is specifically configured to: and acquiring scene information according to the current working scene of the first equipment. The display screen is specifically used for: and when the scene information is a second working scene, displaying a second network icon of the second communication system.
With reference to the fifth aspect or any one of the possible implementation manners of the fifth aspect, in a twenty-fourth possible implementation manner of the fifth aspect, the first communication system is a 4G system, and the second communication system is a 5G system.
In a sixth aspect, the present technical solution provides an electronic device, including one or more processors and one or more memories; the display screen, the one or more memories coupled to the one or more processors, the one or more memories storing computer program code, the computer program code comprising computer instructions that, when executed by the one or more processors, cause the processor to obtain detection information, the detection information comprising second parameter information, the second parameter information comprising at least one of measurement information or time information of a neighboring cell of a cell in which the first device is located. Then, signals of the neighboring cells are measured based on the detection information.
With reference to the sixth aspect, in a first possible implementation manner of the sixth aspect, the second parameter information includes at least one of measurement information or time information of a neighboring cell in the target communication system; and/or at least one of measurement information or time information of a high frequency signal of a neighboring cell in the target communication system, the frequency of the high frequency signal being greater than or equal to a preset value.
With reference to the sixth aspect or the first possible implementation manner of the sixth aspect, in a second possible implementation manner of the sixth aspect, the processor is specifically configured to: acquiring detection information prefabricated on first equipment; alternatively, the detection information is acquired from a third device.
With reference to the sixth aspect or any one of the possible implementation manners of the sixth aspect, in a second possible design of the sixth aspect, the detection information further includes a correspondence between the second parameter information and at least one third parameter information, where the third parameter information includes operator information or location information.
With reference to the sixth aspect or any one of the possible implementation manners of the sixth aspect, in a third possible design of the sixth aspect, the operator information includes a public land mobile network PLMN identifier; the location information includes at least one of a country code or a provincial or municipal code or GPS positioning information.
With reference to the sixth aspect or any one of the possible implementation manners of the sixth aspect, in a fourth possible design of the sixth aspect, the measurement information includes frequency information or cell information of a cell.
With reference to the sixth aspect or any one of the possible implementation manners of the sixth aspect, in a fifth possible design of the sixth aspect, the time information is cycle information of measurement performed by the first device, and the cycle information is an interval between a start time of a first measurement and a start time of a second measurement, or an interval between an end time of the first measurement and a start time of the second measurement when the first device performs two adjacent measurements; or the interval between the end time of the first measurement and the end time of the second measurement.
With reference to the sixth aspect or any one of the possible implementations of the sixth aspect, in a sixth possible design of the sixth aspect, the time information is applied to a timer, and the time information is used for at least one of: the time information is used for the first equipment to measure when the timer is overtime, and the timer is started or restarted; or, the time information is used for starting or restarting a timer when the first device finishes the measurement; or the time information is used for starting a timer after the first device acquires the detection information; or, the time information is used for the first device to measure after acquiring the information, and the timer is started or restarted when the measurement is started, or the timer is started or restarted when the measurement is finished.
In a seventh aspect, this application provides an electronic device that includes one or more processors and one or more memories. The one or more memories are coupled to the one or more processors for storing computer program code comprising computer instructions that, when executed by the one or more processors, cause the electronic device to perform the display control method or the measurement method of any one of the possible implementations of the above aspects.
In another aspect, the present disclosure provides a computer storage medium, which includes computer instructions, and when the computer instructions are executed on an electronic device, the electronic device executes a display control method or a measurement method in any one of the possible implementations of any one of the foregoing aspects.
In another aspect, the present disclosure provides a computer program product, which when run on an electronic device, causes the electronic device to execute a display control method or a measurement method in any one of the possible designs of the foregoing aspects.
Drawings
Fig. 1 is a schematic diagram of a system architecture according to an embodiment of the present application;
fig. 2 is a schematic structural diagram of a communication device according to an embodiment of the present disclosure;
FIG. 3 is a flow chart of a method provided by an embodiment of the present application;
fig. 4 is a schematic display diagram of a network icon according to an embodiment of the present application;
FIG. 5 is a flow chart of another method provided by embodiments of the present application;
FIG. 6 is a flow chart of another method provided by embodiments of the present application;
FIG. 7 is a flow chart of another method provided by embodiments of the present application;
FIG. 8 is a flow chart of another method provided by embodiments of the present application;
fig. 9 is a schematic diagram of period information provided in an embodiment of the present application;
fig. 10 is a schematic structural diagram of a first device according to an embodiment of the present application.
Detailed Description
For ease of understanding, examples are given in part to illustrate concepts related to embodiments of the present application. As follows:
system information: namely, a System Information Block (SIB), and scheduling information of the SIB is carried by a Master Information Block (MIB) or a Scheduling Block (SB). The SIB containing information may include: system information of non-access stratum (NAS), terminal timer/counter, parameters for cell selection and reselection, parameters for cell common physical channel configuration, measurement control information, PLMN identity of neighboring cells in idle and connected states, and frequencies and priorities between cells of different systems, etc.
Country code: also known as country code, is a set of geographic codes used to represent the country and foreign territories. It is a short string of letters or numbers, which is convenient for data processing and communication. There are a number of national code standards, for example ISO 3166-1, which is the International organization for standardization. The country code may also refer to the international long distance telephone country number, the international area code of the international telecommunications union (e.164).
The operator: refers to a provider providing network services, such as china unicom, china telecom, china mobile, china radio and television, united states AT & T, etc.
The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application. In the description of the embodiments herein, "/" means "or" unless otherwise specified, for example, a/B may mean a or B; "and/or" herein is merely an association describing an associated object, and means that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, in the description of the embodiments of the present application, "a plurality" means two or more than two.
The display control method and the display control device provided by the embodiment of the application can be applied to the system architecture shown in fig. 1. In the architecture shown in fig. 1, a first device 101 may be connected to a second device 102 in a first communication system 110 and access a core (core) network through the second device. The vicinity of the first device 101 may also be deployed with cells and devices of the second communication system 120. The first communication system 110 and the second communication system 120 may also be jointly networked to provide dual connectivity DC services for the first device 101. The first communication system 110 is different from the second communication system 120, for example, the first communication system 110 may be a 4G system, and the second communication system 120 may be a 5G system; alternatively, the first communication system 110 may be a 5G system and the second communication system 120 may be a future public land mobile network, PLMN, system that evolves after 5G. As another example, the first communication system 110 may be a 5G system, and the second communication system 120 may be a 4G system; alternatively, the first communication system 110 may be a future PLMN system that evolves after 5G and the second communication system 120 may be a 5G system. The embodiment of the present application does not specifically limit which communication system the first communication system 110 and the second communication system 120 are specifically.
The first device 101 may be a terminal, and specifically may be a User Equipment (UE), an access terminal, a terminal unit, a terminal station, a mobile station, a remote terminal, a mobile device, a wireless communication device, a terminal agent, a terminal device, or the like. An access terminal may be a cellular telephone, a cordless telephone, a Session Initiation Protocol (SIP) phone, a Wireless Local Loop (WLL) station, a Personal Digital Assistant (PDA), a computer, a laptop computer, a handheld computing device, and/or other devices used to communicate over a wireless system. A handheld device with wireless communication capabilities, a computing device or other processing device connected to a wireless modem, a satellite wireless device, a wireless modem card, a television Set Top Box (STB), a Customer Premises Equipment (CPE), a vehicle mounted device, a wearable device, a terminal in a 5G network or a terminal in a future evolved PLMN network, etc.
The second device 102 may be an access network device in a communication system. For example, the access network device may be a base station, a relay station, an access point, or the like. The base station may be a Base Transceiver Station (BTS) in a global system for mobile communications (GSM) or Code Division Multiple Access (CDMA) network, or may be an nb (nodeb) in Wideband Code Division Multiple Access (WCDMA), or may be an eNB or enodeb (evolved nodeb) in LTE. The access network device may also be a wireless controller in a Cloud Radio Access Network (CRAN) scenario. The access network device may also be a next generation base station gNB in a 5G network or an access network device in a PLMN system for future evolution, etc.
For example, fig. 2 shows a schematic structural diagram of a communication apparatus 200, where the communication apparatus 200 may be a first device and a second device related to the embodiment of the present application, and specifically may be a chip, a base station, a terminal, or other network devices.
The communication device 200 includes one or more processors 201. The processor 201 may be a general purpose processor or a special purpose processor, etc. For example, a baseband processor, or a central processor. The baseband processor may be used to process communication protocols and communication data, and the central processor may be used to control the communication apparatus 200 (e.g., a base station, a terminal, or a chip, etc.), execute a software program, and process data of the software program.
In one possible design, a network device may include one or more modules that may be implemented by one or more processors or one or more processors and memory.
In one possible design, the communication apparatus 200 includes one or more processors 201, and the one or more processors 201 may implement the functions of measuring the same frequency, different frequency, and different system and displaying the communication system information. In another possible design, processor 201 may also perform other functions.
Optionally, in one design, processor 201 may include instructions 203 (also sometimes referred to as code or program) that may be executed on the processor to cause communication device 200 to perform the methods described in embodiments of the present application. In yet another possible design, the communication apparatus 200 may also include a circuit, and the circuit may implement the functions of inter-system measurement and displaying communication system information in the embodiment of the present application.
Optionally, in one design, the communication device 200 may include one or more memories 202 having instructions 204 stored thereon, which are executable on a processor to cause the communication device 200 to perform the methods described in the above method embodiments.
Optionally, the memory may also store data. Instructions and/or data may also be stored in the optional processor. The processor and the memory may be provided separately or may be integrated together.
Optionally, the communication device 200 may further include a transceiver 205 and an antenna 206. The processor 201 may be referred to as a processing unit and controls the communication apparatus 200 (terminal or base station). The transceiver 205 may be referred to as a transceiving unit, a transceiver, a transceiving circuit, etc. for implementing transceiving functions of the communication device through the antenna 206.
Optionally, the communication apparatus 200 may further include a modem module (modem) for inter-frequency measurement, and the like. The functions of these devices may be implemented by one or more processors 201.
Optionally, the communication apparatus 200 may further include a display 207 for displaying information of the communication system, displaying a Graphical User Interface (GUI), displaying information input by or provided to the user and various menus of the mobile phone, and also accepting user input.
The display control method provided in the embodiments of the present application will be described in detail below with reference to specific embodiments.
An embodiment of the present application provides a display control method, and referring to fig. 3, the method may include:
301. the first device obtains mapping information, wherein the mapping information includes a plurality of corresponding relations, the plurality of corresponding relations are used for representing the corresponding relations between n first parameter information and a plurality of network icons, n is a positive integer, the first parameter information includes indication information, frequency information, service type, operator information, position information, connection state information, or scene information, and the connection state information includes idle state, inactive state, or connection state.
The scene information may include: in a first working scenario, a cell in which the first device is located is a cell of a first communication system and supports joint networking with a second communication system (also referred to as supporting non-independent (NSA) networking); or, in a second working scenario, the first device is registered in a core network of the second communication system through an air interface of the first communication system; or, in the third working scenario, the cell in which the first device is located is a cell of the second communication system; or, in a fourth working scenario, the first device is connected to a base station of the first communication system, and the first device has a secondary base station of the second communication system. Wherein the third work scenario may include: the service cell when the first device is in the connected state is a cell of a second communication system; or, the resident cell when the first device is in the idle state or the inactive state is a cell of the second communication system.
Illustratively, the second communication system may be a 5G system, and the first communication system may be a 4G system. The first work scenario may include: the cell in which the first device is located is a 4G LTE cell and supports joint networking with a 5G New Radio (NR) cell. The second working scenario may include: the first equipment works under an eLTE base station and is registered in a core network of a 5G system through an air interface of the 4G system. The third working scenario may include: the first device is connected to the NR cell or the first device resides in the NR cell. The fourth work scene may include: the first device is connected to the LTE base station of 4G, and the first device is provided with the auxiliary base station of the 5G system.
The mapping information may be a mapping relationship between the first parameter information and the network icons, or a mapping relationship between a combination of multiple kinds of first parameter information and the network icons. And, each kind of the first parameter information may specifically include that one parameter may include a plurality of parameters.
For example, the mapping information may indicate a correspondence relationship between the first parameter information and the network icon, as shown in table 1 below. In table 1, each row represents a correspondence. In the correspondence relationship represented by each row, the network icon is associated with the first parameter information labeled with the "√" sign.
As shown in table 1, the mapping information may include a correspondence relationship between any one of indication information, frequency information, service type, operator information, or location information and a network icon. For example, the mapping information includes a correspondence relationship of the indication information and the network icon. For another example, the mapping information includes a correspondence relationship between the frequency information and the network icon. As another example, the mapping information includes a correspondence of the service type and the network icon. For another example, the mapping information includes a correspondence relationship between the operator information and the network icon. For another example, the mapping information includes a correspondence relationship between the location information and the network icon. For another example, the mapping information includes a correspondence between the connection state information and the network icon. For another example, the mapping information includes a correspondence relationship between the scene information and the network icon.
As shown in table 1, the mapping information may further include a correspondence relationship between any combination of multiple indication information, frequency information, service type, operator information, or location information and multiple network icons. For example, the mapping information includes the correspondence of the indication information and the frequency information with the network icon. As another example, the mapping information includes correspondence between frequency information and connection state information and a network icon. As another example, the mapping information includes frequency information, connection state information, and a correspondence relationship of scene information and a network icon. For another example, the mapping information includes a correspondence relationship of the indication information, the operator information, and the location information with the network icon. For another example, the mapping information includes frequency information, service type, and correspondence between operator information and a network icon.
TABLE 1
It should be noted that the mapping information may also include other corresponding relationships besides the examples illustrated in table 1, and embodiments of the present application are not listed.
302. The first equipment acquires m pieces of first parameter information from the second equipment and/or according to the working state of the first equipment, wherein m is a positive integer less than or equal to n.
The service frequency of the cell in which the first device is located, the frequency of a signal of a cell adjacent to the cell in which the first device is located, a service currently used by the first device, an operator currently used by the first device, a current location of the first device, a current connection state of the first device, or a current working scene of the first device, and the like.
Specifically, the first device may obtain m pieces of first parameter information from the second device; or the first device may obtain m pieces of first parameter information from the first device itself according to the working state of the first device; or, the first device may obtain a part of the m pieces of first parameter information from the second device, and obtain another part of the m pieces of first parameter information from the first device itself according to the operating state of the first device.
303. And the first equipment displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon.
After the first device obtains the m pieces of first parameter information in step 302, it may search for the network icon corresponding to the m pieces of first parameter information obtained in step 302 in the mapping relationship, and display the searched network icon. If the m pieces of first parameter information acquired by the first device are different, the network icons found by the first device may also be different, and the network icons displayed by the first device may also be different.
The first device displaying the network icon means that the first device displays the network icon and the like when the status bar screen displays (AOD). For example, as shown in (a) and (b) of fig. 4, the network icon displayed by the first device may be a "5G" icon 402 or a "5G +" icon 403 displayed in the status bar 401.
As can be seen, in the display control method provided in this embodiment of the application, the first device may dynamically display different network icons according to different first parameter information acquired from the second device or acquired according to the operating state of the first device, instead of only keeping displaying the icon of the network registered by the first device as in the prior art, so that the display of the network icons can be flexibly controlled, and the operation and maintenance requirements of an operator can be more conveniently met.
Wherein the indication information in the first parameter information may be information received by the first device from the second device. For example, the indication information may be broadcast information received by the first device from the second device. For example, the broadcast information may specifically be system information, the second device may be a base station, and the base station may send the indication information to the first device through the system information. The first device can flexibly display different network icons according to different indication information sent by the base station.
In addition, since the display configurations of the network icons that may be supported by different operators are different, the operator information may also be included in the first parameter information. The operator information in the first parameter information is used to indicate an operator used by the first device, for example, the operator information may include a public land mobile network PLMN identity, a name of the operator (e.g., mobile, universal, telecommunication, etc.), or an organization code of the operator, and the like.
Since the display configuration of the network icons supported by the operator in different regions may also be different, the first parameter information may also include location information. The location information in the first parameter information is used to indicate the location of the first device, for example, the location information may include at least one of a country code, a city code, global positioning system GPS information, or a name of a geographical location of the first device. The province code refers to a geographic code of each region (e.g., each province or each city), and may be, for example, a telephone area code.
The service type in the first parameter information is used to indicate a type of a service currently used by the first device, and may include one or more of a carrier aggregation CA service, a dual connectivity DC service, or a multiple input multiple output MIMO service, for example. The first device can flexibly display different network icons according to different services currently used.
In addition, the current connection state of the first device is different or the current working scene of the first device is different, and the network icon displayed by the first device may also be different. Therefore, the first parameter information can flexibly display different network icons according to different connection states and state information and scene information corresponding to working scenes.
In step 301, the mapping information may be information obtained by the first device from another device. For example, the first device may obtain the mapping information from a third device, which may be the same base station as the second device. For another example, the first device may obtain the mapping information from a third device different from the second device, where the second device may be a base station, and the third device may be a network device such as a cloud server. Compared with the case that the first device acquires the mapping information from the base station, the first device acquires the mapping information from other devices such as a cloud server and the like, so that the overhead of air interface signaling of the base station can be saved.
Alternatively, in step 301, the mapping information may specifically be information that is pre-manufactured on the first device, and the first device may obtain the pre-manufactured information from the device. For example, the mapping information may be pre-fabricated in a SIM card of the subscriber identity module, where the SIM card may be a physical card or a virtual card, and the first device may obtain the pre-fabricated mapping information from the SIM card. For another example, the mapping information may be pre-fabricated in a memory of the first device, and the first device may retrieve the pre-fabricated mapping information from the memory.
In addition, the mapping information may also be pre-manufactured in an external storage device (e.g., an SD card or a mobile hard disk, etc.), and when the first device is inserted into or connected to the external storage device, the first device may obtain the pre-manufactured mapping information from the external storage device.
The following embodiments of the present application will specifically describe the mapping relationship shown in table 1 by way of example.
(1) The mapping information comprises the corresponding relation between the indication information and the network icon, namely the mapping information is used for representing the meaning of the indication information. The m pieces of first parameter information acquired by the first device in step 302 include indication information.
For example, the indication information in the mapping information includes 1bit information for corresponding to two different network icons. Illustratively, referring to table 2, the indication information "0" corresponds to the "5G" icon, and the indication information "1" corresponds to the "5G +" icon.
TABLE 2
Indicating information | Network icon |
0 | 5G |
1 | 5G+ |
For example, if the 1-bit indication information received by the first device from the base station in step 302 is "1", the first device may determine, according to the mapping information shown in table 2, that the network icon corresponding to the indication information "1" is a "5G +" icon, so that the first device may display the "5G +" icon in the status bar of the first device.
For another example, the indication information in the mapping information includes 2-bit information for corresponding to 3 different network icons. Illustratively, referring to table 3, indication information "00" corresponds to the "4G" icon, indication information "01" corresponds to the "5G" icon, and indication information "10" corresponds to the "5G +" icon.
TABLE 3
Indicating information | Network icon |
00 | 4G |
01 | |
10 | 5G+ |
For example, if the 2-bit indication information received by the first device from the base station in step 302 is "01", the first device may determine, according to the mapping information shown in table 3, that the network icon corresponding to the indication information "01" is a "5G" icon, and thus the first device may display the "5G" icon. If the 2-bit indication information received by the first device from the base station in step 302 is "10", the first device may determine, according to the mapping information shown in table 3, that the network icon corresponding to the indication information "10" is a "5G +" icon, and thus the first device may display the "5G +" icon.
(2) The mapping information comprises indication information and the corresponding relation between operator information and the network icon, and the meanings of the indication information corresponding to different operators are different. The m pieces of first parameter information acquired by the first device in step 302 include indication information and operator information.
For example, the operator information is PLMN identifiers, the indication information is 2-bit information, and the correspondence between the operator information and the indication information and the network icons can be seen in table 4 below.
TABLE 4
It should be noted that "-" in table 4 means "null", i.e., there is no corresponding network icon.
For example, if in step 302, the 2-bit indication information received by the first device from the base station is "01", the operator currently used by the first device is operator 1, and the operator information acquired by the first device according to the currently used operator 1 is PLMN1, the first device may determine, according to the mapping information shown in table 4, that the network icon corresponding to the operator 1 and the indication information "01" is a "5G" icon, so that the first device may display the "5G" icon. If the 2-bit indication information received by the first device from the base station in step 302 is "11", the operator used by the first device is operator 2, and the operator information obtained by the first device according to the currently used operator 2 is PLMN2, the first device may determine, according to the mapping information shown in table 4, that the network icon corresponding to the operator 2 and the indication information "11" is a "5G +" icon, and thus the first device may display the "5G +" icon.
As can be seen, the first device can flexibly display different network icons according to different indication information sent by the second device.
(3) The mapping information comprises the corresponding relation between the indication information and the position information and the network icon, and the meanings of the indication information corresponding to different regions are different. The m pieces of first parameter information acquired by the first device in step 302 include indication information and location information.
For example, the location information is a country name abbreviated in english, US indicates the united states, CHINA indicates CHINA, the indication information is 2-bit information, and the correspondence between the location information and the indication information and the network icon can be seen in table 5 below.
TABLE 5
For example, if in step 302, the 2-bit indication information received by the first device from the base station is "01", the current location of the first device is the united states, and the location information acquired by the first device according to the current location is US, the first device may determine, according to the mapping information shown in table 5, that the network icon corresponding to US and the indication information "01" is an "LTE-a" icon, so that the first device may display the "LTE-a" icon. If the 2bit indication information received by the first device from the base station in step 302 is "11", the location where the first device is located is CHINA, and the location information acquired by the first device according to the current location is CHINA, the first device may determine, according to the mapping information shown in table 5, that the network icon corresponding to CHINA and the indication information "11" is a "5G +" icon, so that the first device may display the "5G +" icon.
(4) The mapping information comprises corresponding relations between the indication information, the operator information and the position information and the network icon, and the meanings of the indication information corresponding to different operators and different regions are different. The m pieces of first parameter information acquired by the first device in step 302 include indication information, operator information, and location information. For example, the correspondence between the indication information, the operator information, and the location information and the network icon may be referred to as table 6 below.
TABLE 6
For example, if in step 302, the 2-bit indication information received by the first device from the base station is "01"; the current position of the first equipment is the United states, and the position information acquired by the first equipment according to the current position is the US; the currently used operator of the first device is operator 2, and the first device obtains the operator information which is PLMN2 according to the currently used operator; the first device may determine that the network icon corresponding to the US, the PLMN2 and the indication information "01" is the "5G" icon according to the mapping information shown in table 6, and thus the first device may display the "5G" icon.
(5) And the mapping information comprises the corresponding relation between the indication information and the frequency information and the network icon. The m pieces of first parameter information acquired by the first device in step 302 include indication information and frequency information. The indication information is used for indicating whether a network icon of the second communication system is displayed or not, and the frequency information is used for indicating whether the service frequency of the cell where the first device is located is a high-frequency signal or not. Wherein, the frequency of the high-frequency signal is greater than or equal to a preset value (for example, 6 GHz).
Based on this, referring to fig. 5, the step 302 may specifically include:
501. the first device receives indication information from the second device.
502. The first equipment acquires frequency information according to the service frequency of the cell where the first equipment is located.
The step 303 may specifically include:
503. and if the indication information indicates that the network icon of the second communication system is displayed and the frequency information indicates that the service frequency of the cell in which the first equipment is located is a high-frequency signal, the first equipment displays the first network icon of the second communication system.
504. And if the indication information indicates that the network icon of the second communication system is displayed and the frequency information indicates that the service frequency of the cell in which the first equipment is located is not a high-frequency signal, the first equipment displays the second network icon of the second communication system.
For example, the second communication system is a 5G system (or referred to as an NR system); the indication information is 1bit information, wherein '0' indicates that the network icon of the 5G system is not displayed, and '1' indicates that the network icon of the 5G system is displayed; the frequency information in the first parameter information includes "a service frequency is a low frequency signal" and "a service frequency is a high frequency signal"; alternatively, the frequency information includes "< 6GHz (Hertz)" and "≧ 6 GHz". The correspondence between the frequency information and the indication information and the network icon can be seen in table 7 below.
TABLE 7
For example, if in step 302, the 2-bit indication information received by the first device from the base station is "1"; the service frequency of the cell in which the first device is currently located is 6.5GHz, and if the frequency information in the first parameter information acquired by the first device according to the service frequency of the cell in which the first device is currently located is "the service frequency is a high-frequency signal", the first device determines, according to table 7, that the network icon corresponding to the indication information "1" and the frequency information "the service frequency is a high-frequency signal" is a "5G +" icon, so that the first device displays the "5G +" icon.
(6) The mapping information includes a corresponding relationship between the frequency information and the network icon, and the m pieces of first parameter information acquired by the first device in step 302 include the frequency information and the scene information. The frequency information is used for indicating whether the service frequency of the cell where the first device is located is a high-frequency signal, and the frequency of the high-frequency signal is greater than or equal to a preset value (for example, 6 GHz).
Based on this, the step 302 may specifically include:
601. the first equipment acquires frequency information according to the service frequency of the cell where the first equipment is located.
602. The first equipment acquires scene information according to the current working scene of the first equipment.
The step 303 may specifically include:
603. and if the scene information is a third working scene or a fourth working scene, and the frequency information indicates that the service frequency of the cell in which the first equipment is located is a high-frequency signal, the first equipment displays a first network icon of the second communication system.
604. And if the scene information is a third working scene or a fourth working scene, and the frequency information indicates that the service frequency of the cell in which the first equipment is positioned is not a high-frequency signal, the first equipment displays a second network icon of the second communication system.
When the second communication system is a 5G system and the first communication system is a 4G system, the third working scenario may include: the first device is connected to the NR cell, or the first device resides in the NR cell; the fourth work scenario may include: the first equipment is connected to the LTE base station of 4G, and the first equipment has the auxiliary base station of 5G system.
For example, the second communication system is a 5G system, and the first communication system is a 4G system; the frequency information in the first parameter information includes "a service frequency is a low frequency signal" and "a service frequency is a high frequency signal"; alternatively, the frequency information includes "< 6 GHz" and "≧ 6 GHz". In the first working scenario or the second working scenario, the correspondence between the frequency information and the network icon can be seen in table 8 below.
TABLE 8
For example, if the first device is connected to an LTE base station of a 4G system and has an NR secondary base station of a 5G system, the scene information in the m pieces of first parameter information acquired by the first device in step 302 is a fourth working scene; if the service frequency of the cell in which the first device is currently located is 4.7GHz, and the frequency information in the m pieces of first parameter information obtained by the first device according to the service frequency of the cell in which the first device is currently located in step 302 is "the service frequency is a low-frequency signal", the first device may determine, according to table 8, that the scene information is the "fourth operation scene" and the network icon corresponding to the frequency information that the frequency information is "the service frequency is a low-frequency signal" is the "5G" icon, and thus may display the "5G" icon.
In one case, when the first device is registered in the core network of the second communication system through the air interface of the first communication system and the first device has the secondary base station of the second communication system, for example, the first device operates under an lte base station, and is registered in the core network of the 5G system through the air interface of the 4G system and has the secondary base station of the 5G system, the first device is currently in the fourth scenario as well, and the network icon may be displayed by using the scheme in (6).
(7) And the mapping information comprises the corresponding relation between the frequency information and the scene information and the network icon. The m pieces of first parameter information acquired by the first device in step 302 include frequency information and scene information. The frequency information is used for indicating that the service frequency of the cell where the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of a second communication system and an adjacent cell of an operator. Here, the neighboring cell of the same operator refers to a neighboring cell of the same operator corresponding to the cell in which the first device is located. The frequency of the low-frequency signal is less than a preset value (for example, 6GHz), and the frequency of the high-frequency signal is greater than or equal to the preset value.
Based on this, the step 302 may specifically include:
701. the first device obtains frequency information according to the service frequency of the cell where the first device is located and the frequency of the signal of the adjacent cell of the cell where the first device is located.
702. The first equipment acquires scene information according to the current working scene of the first equipment.
The step 303 may specifically include:
703. and if the scene information is a third working scene, the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, and the first equipment is covered by the high-frequency signal of the adjacent cell of the second communication system and the operator, the first equipment displays a first network icon.
704. And if the scene information is a third working scene, the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, and the first equipment is not covered by the high-frequency signal of the adjacent cell of the second communication system and the operator, the first equipment displays a second network icon.
Wherein, when the second communication system is a 5G system, the third working scenario may include: the first device is connected to the NR cell or the first device resides in the NR cell.
For example, the frequency information in the first parameter information may include "the service frequency is a low frequency signal, without coverage of a high frequency signal of a neighboring cell of the second communication system and the operator" and "the service frequency is a low frequency signal, with coverage of a high frequency signal of a neighboring cell of the second communication system and the operator".
For example, when the second communication system is a 5G system, on the basis that the service frequency of the cell in which the first device is located is a low-frequency signal, if the first device has the high-frequency signal coverage of an NR cell of the 5G system, the NR cell is not the cell in which the first device is located, but is a neighboring cell of the cell in which the first device is located, so that if the first device has the high-frequency signal coverage of an NR cell of the same operator, it may be indicated that the first device has the high-frequency signal coverage of a neighboring NR cell of the same operator. Thus, the frequency information may specifically include "the service frequency is a low frequency signal without high frequency signal coverage of an NR cell of the same operator" and "the service frequency is a low frequency signal with high frequency signal coverage of an NR cell of the same operator". The correspondence between the scene information and the frequency information and the network icon can be seen in table 9 below.
TABLE 9
For example, if the second communication system is a 5G system and the current cell where the first device is located is an NR cell of the 5G system, the scene information acquired by the first device in step 302 is a third working scene. If the service frequency of the NR cell in which the first device is located is less than a preset value (e.g., 6GHz), the service frequency is a low frequency signal, and the NR cell in which the first device is located is a low frequency cell. If the frequency of the signal of the adjacent NR cell of the cell where the first device is located includes a high-frequency signal greater than a preset value (e.g., 6GHz), the NR cell is also a 5G system, and corresponds to the same operator as the cell where the first device is located, the first device may determine that the frequency information acquired in step 302 is "the service frequency is a low-frequency signal, and there is high-frequency signal coverage of the NR cell of the same operator". The first device may determine, according to the mapping relationship shown in table 9, that the icons corresponding to the m pieces of first parameter information acquired in step 302 are "5G +" icons, so that the "5G +" icons may be displayed in the status bar.
Specifically, when the cell in which the first device is located is an NR low frequency cell of a 5G system and the first device has coverage of an NR high frequency cell of the same operator, it may be described that the cell in which the first device is located has a possibility of adding the NR high frequency cell as a secondary cell, and therefore the first device may display other icons different from the "5G" icon, for example, may display a "5G +" icon.
For another example, the second communication system is a 5G system, and the frequency information in the first parameter information includes a service frequency that is a low frequency signal, and frequency values of at least one high frequency signal of an adjacent NR cell corresponding to the same operator as the first device, such as "6.5 GHz, 7.2GHz, and 8.4 GHz". For example, the correspondence between the scene information and the frequency information and the network icon may be referred to as the following table 10.
If the second communication system is a 5G system and the current cell where the first device is located is an NR cell of the 5G system, the scene information acquired by the first device in step 302 is a third working scene; if the service frequency of the first device according to the NR cell is smaller than a preset value (for example, 6GHz), the service frequency of the cell in which the first device is located is a low-frequency signal; and the frequency of the signal of the adjacent NR cell of the cell where the first device is located includes 6.5GHz, the frequency information acquired by the first device in step 302 is that "the service frequency is a low frequency signal, and the service frequency of the adjacent NR cell includes 6.5GHz, 7.2GHz, or 8.4 GHz". The first device determines, according to the mapping relationship shown in table 10, that the icons corresponding to the m pieces of first parameter information in step 302 are "5G +" icons, so that the first device may display the "5G +" icons. Since 6.5GHz is the frequency value of the high frequency signal of the adjacent NR cell corresponding to the same operator as the first device, when the frequency of the signal of the adjacent NR cell of the cell where the first device is located includes 6.5GHz, it can be indicated that the first device has the high frequency signal coverage of the adjacent NR cell of the same operator.
If the second communication system is a 5G system and the current cell in which the first device is located is an NR cell of the 5G system, the scene information acquired by the first device is a third working scene; if the frequencies of the signals of the adjacent NR cells of the cell in which the first device is located do not include 6.5GHz, 7.2GHz, and 8.4GHz, and the first device does not have high-frequency signal coverage with the adjacent NR cell of the operator, the first device may display the "5G" icon according to the mapping relationship shown in table 10.
For another example, the second communication system is a 5G system, and the frequency information in the first parameter information includes a range of a low frequency signal serving a frequency and a high frequency signal of an adjacent NR cell of the same operator. On the basis that the service frequency of the cell where the first device is located is a low-frequency signal, if the first device is covered by a high-frequency signal, the high-frequency signal is a high-frequency signal of an adjacent cell. Illustratively, the frequency information may specifically include "the service frequency is a low frequency signal, the service frequency of the NR cell with the operator is <6 GHz" and "the service frequency is a low frequency signal, the service frequency of the NR cell with the operator is ≧ 6 GHz". For example, the correspondence between the scene information and the frequency information and the network icon may be referred to as the following table 11.
TABLE 11
(8) And the mapping information comprises frequency information, connection state information and the corresponding relation between the scene information and the network icon. The m pieces of first parameter information acquired by the first device in step 302 include frequency information, connection state information, and scene information. The frequency information is used for indicating that the service frequency of the cell where the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of a second communication system and an adjacent cell of an operator, wherein the frequency of the low-frequency signal is smaller than a preset value, and the frequency of the high-frequency signal is larger than or equal to the preset value.
Based on this, referring to fig. 6, the step 302 may specifically include:
801. the first device obtains frequency information according to the service frequency of the cell where the first device is located and the frequency of the signal of the adjacent cell of the cell where the first device is located.
802. And the first equipment acquires the connection state information according to the current connection state.
803. The first equipment acquires scene information according to the current working scene of the first equipment.
The step 303 may specifically include:
804. and if the scene information is a third working scene, the connection state information is in an idle state or an inactive state, and the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, and the first equipment is covered by the high-frequency signals of the second communication system and the adjacent cell of the operator, the first equipment displays a third network icon.
805. And if the scene information is a third working scene, the connection state information is a connection state, the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, and the first equipment is covered by the high-frequency signal of the adjacent cell of the second communication system and the operator, the first equipment displays a fourth network icon.
806. And if the scene information is a third working scene, the connection state information is in an idle state or an inactive state, and the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, and the first equipment does not have the coverage of the second communication system and the high-frequency signal of the adjacent cell of the operator, the first equipment displays a fifth network icon.
807. And if the scene information is a third working scene, the connection state information is a connection state, and the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, and the first equipment does not have the coverage of the second communication system and a high-frequency signal of an adjacent cell of the operator, the first equipment displays a sixth network icon.
The third network icon, the fourth network icon, the fifth network icon and the sixth network icon may be the same or different. When the second communication system is a 5G system, the third working scenario may include: the first device is connected to the NR cell or the first device resides in the NR cell.
For example, the frequency information in the first parameter information may include "the service frequency is a low frequency signal without coverage of a high frequency signal with a neighboring cell of the second communication system operator" and "the service frequency is a low frequency signal with coverage of a high frequency signal with a neighboring cell of the second communication system with the operator".
For example, if the second communication system is a 5G system, on the basis that the service frequency of the cell where the first device is located is a low frequency signal, if the first device has the high frequency signal coverage of an NR cell of the 5G system, the NR cell is not the cell where the first device is located, but is a neighboring cell of the cell where the first device is located, so that if the first device has the high frequency signal coverage of an NR cell of the same operator, it may indicate that the first device has the high frequency signal coverage of a neighboring NR cell of the same operator. Thus, the frequency information may specifically include "the service frequency is a low frequency signal without high frequency signal coverage of an NR cell of the same operator" and "the service frequency is a low frequency signal with high frequency signal coverage of an NR cell of the same operator". The correspondence between the scene information, the connection state information, and the frequency information and the network icon may be referred to as the following table 12.
TABLE 12
When the second communication system is a 5G system, the first device is in a "third working scenario, and an idle state (or an inactive state)" indicates that the first device resides in the NR cell; the first device is in the "third operating scenario, connected state)" indicating that the first device is connected in the NR cell.
For example, if the second communication system is a 5G system and the first device currently resides in an NR cell of the 5G system, the scene information acquired by the first device in step 320 is a third working scene, and the acquired connection state information is in an idle state or an inactive state. If the service frequency of the NR cell in which the first device is currently located is less than a preset value (e.g., 6GHz), the service frequency is a low frequency signal, and the NR cell in which the first device is located is a low frequency cell. If the frequency of the signal of the adjacent NR cell of the cell where the first device is located includes a high frequency signal greater than a preset value (e.g., 6GHz), and the adjacent NR cell corresponds to the same operator as the cell where the first device is located, the first device has coverage of the adjacent NR cell of the same operator. Therefore, the frequency information acquired by the first device in step 302 may be "the service frequency is a low-frequency signal and there is a high-frequency signal coverage of the NR cell of the same operator". When configuration 1 in table 12 is adopted, the first device may determine, according to the mapping relationship corresponding to configuration 1, that the icons corresponding to the m pieces of first parameter information are "5G +" icons, and thus the first device may display the "5G +" icons.
(9) And the mapping information comprises frequency information, connection state information and the corresponding relation between the scene information and the network icon. The m pieces of first parameter information acquired by the first device in step 302 include indication information, frequency information, and scene information. The indication information is used for indicating whether a network icon of the second communication system is displayed or not; the frequency information is used for indicating that the service frequency of the cell where the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of a cell adjacent to the second communication system and the operator, wherein the frequency of the low-frequency signal is smaller than a preset value, and the frequency of the high-frequency signal is larger than or equal to the preset value.
Based on this, the step 302 may specifically include:
901. the first device receives indication information from the second device.
902. The first device obtains frequency information according to the service frequency of the cell where the first device is located and the frequency of the signal of the adjacent cell of the cell where the first device is located.
903. The first equipment acquires scene information according to the current working scene of the first equipment.
The step 303 may specifically include:
904. and if the indication information indicates that the network icon of the second communication system is displayed, the scene information is a first working scene or a second working scene, the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, and the first equipment is covered by the high-frequency signals of the second communication system and the adjacent cell of the operator, the first equipment displays the first network icon of the second communication system.
905. And if the indication information indicates that the network icon of the second communication system is displayed, the scene information is a first working scene or a second working scene, the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, and the first equipment does not have the coverage of the high-frequency signal of the second communication system and the adjacent cell of the operator, the first equipment displays the second network icon of the second communication system.
When the second communication system is a 5G system and the first communication system is a 4G system, the first working scenario may include: the cell where the first equipment is located is a 4G LTE cell and supports joint networking with a 5G NR cell; the second work scenario may include: the first device works under an eLTE base station and is registered in a core network of a 5G system through an air interface of the 4G system.
For example, the second communication system is a 5G system, the indication information in the first parameter information may be 1-bit information, where the indication information "1" indicates a network icon displaying the 5G system; the indication information "0" indicates that the network icon of the 5G system is not displayed. The frequency information in the first parameter information includes "a service frequency is a low frequency signal and there is no high frequency signal coverage of an NR cell of the same operator" and "a service frequency is a low frequency signal and there is high frequency signal coverage of an NR cell of the same operator". For example, the correspondence between the scene information and the frequency information and the network icon may be referred to as table 13 below.
Watch 13
For example, if the second communication system is a 5G system, the first communication system is a 4G system, and the cell where the first device is located is a 4G LTE cell and supports joint networking with a 5G NR cell, the scene information acquired by the first device in step 302 is a first working scene. If the service frequency of the first device according to the LTE cell is smaller than a preset value (e.g., 6GHz), the service frequency is a low-frequency signal, and the LTE cell where the first device is located is a low-frequency cell. If the frequency of the signal of the adjacent NR cell of the cell where the first device is located includes a high-frequency signal greater than a preset value (e.g., 6GHz), and the adjacent cell corresponds to the same operator as the cell where the first device is located, the frequency information acquired by the first device in step 302 may be "the service frequency is a low-frequency signal and is covered by a high-frequency signal of an NR cell of the same operator". The first device determines, according to the mapping relationship shown in table 13, that the icons corresponding to the m pieces of first parameter information in step 302 are "5G +" icons, so that the "5G +" icons can be displayed.
Specifically, when the cell where the first device is located is a 4G LTE cell and supports joint networking with a 5G NR cell, and the first device has coverage of an NR high frequency cell of the same operator, it may be described that the cell where the first device is located has a possibility of adding the NR high frequency cell as a secondary cell, and thus the first device may display other icons different from the "5G" icon, for example, the "5G +" icon.
(10) And the mapping information comprises frequency information, connection state information and the corresponding relation between the scene information and the network icon. The m pieces of first parameter information acquired by the first device in step 302 include indication information, frequency information, connection state information, and scene information. The indication information is used for indicating whether a network icon of the second communication system is displayed or not; the frequency information is used for indicating that the service frequency of the cell where the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of a second communication system and an adjacent cell of an operator, wherein the frequency of the low-frequency signal is smaller than a preset value, and the frequency of the high-frequency signal is larger than or equal to the preset value.
Based on this, referring to fig. 7, the step 302 may specifically include:
1001. the first device receives indication information from the second device.
1002. The first device obtains frequency information according to the service frequency of the cell where the first device is located and the frequency of the signal of the adjacent cell of the cell where the first device is located.
1003. And the first equipment acquires the connection state information according to the current connection state.
1004. The first equipment acquires scene information according to the current working scene of the first equipment.
The step 303 may specifically include:
1005. and if the scene information is a first working scene or a second working scene, the indication information indicates that the network icon of the second communication system is displayed, the state information is in an idle state or an inactive state, the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, the first equipment is covered by the high-frequency signal of the second communication system and the adjacent cell of the operator, and then the first equipment displays a seventh network icon of the second communication system.
1006. And if the scene information is a first working scene or a second working scene, the indication information indicates that the network icon of the second communication system is displayed, the state information is in an idle state or an inactive state, and the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, and the first equipment does not have the coverage of the second communication system and the high-frequency signal of the adjacent cell of the operator, the first equipment displays an eighth network icon of the second communication system.
1007. And if the scene information is a first working scene or a second working scene, the indication information indicates that the network icon of the second communication system is displayed, the state information is in a connected state, the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, the first equipment is covered by the high-frequency signal of the second communication system and the adjacent cell of the operator, and the first equipment displays a ninth network icon of the second communication system.
1008. And if the scene information is a first working scene or a second working scene, the indication information indicates that the network icon of the second communication system is displayed, the state information is in a connection state, the frequency information indicates that the service frequency of the cell where the first equipment is located is a low-frequency signal, and the first equipment does not have the high-frequency signal coverage of the second communication system and the adjacent cell of the operator, the first equipment displays a tenth network icon of the second communication system.
Wherein the seventh network icon, the eighth network icon, the ninth network icon, and the tenth network icon may be the same or different. When the second communication system is a 5G system and the first communication system is a 4G system, the first working scenario may include: the cell where the first equipment is located is a 4G LTE cell and supports joint networking with a 5G NR cell; the second work scenario may include: the first device works under an eLTE base station and is registered in a core network of a 5G system through an air interface of the 4G system.
For example, the frequency information in the first parameter information includes "the service frequency is a low frequency signal, and there is no high frequency signal coverage of the second communication system with the neighboring cell of the operator" and "the service frequency is a low frequency signal, and there is high frequency signal coverage of the second communication system with the neighboring cell of the operator". For example, if the second communication system is a 5G system and the first communication system is a 4G system, the frequency information may specifically include "the service frequency is a low-frequency signal and there is no high-frequency signal coverage of an NR cell of the same operator" and "the service frequency is a low-frequency signal and there is high-frequency signal coverage of an NR cell of the same operator". The indication information in the first parameter information can be 1bit information, wherein the indication information "1" represents a network icon displaying the 5G system; the indication information "0" indicates that the network icon of the 5G system is not displayed. The correspondence between the scene information, the connection state information, and the frequency information and the network icon may be referred to as the following table 14.
TABLE 14
For example, when the second communication system is a 5G system and the first communication system is a 4G system, the first device is in a "first working scenario, and the idle state (or inactive state)" may include that the first device resides in a 4G system LTE cell supporting NSA; the first device being in a "first working scenario, connected state" may include the first device being connected in a 4G system LTE cell that supports NSA.
For example, when the second communication system is a 5G system and the first communication system is a 4G system, the first device is in a "second working scenario, and the idle state (or the inactive state)" may include that the first device resides in an lte cell and is registered in a 5G core network; the first device is in the "second working scenario, connected state)" may include that the first device is connected in an lte cell and registered in a 5G core network.
For example, if the indication information received by the first device from the base station (i.e., the second device) is "1" in step 302, it indicates that the first device needs to display the 5G icon. If the first device currently resides in the LTE cell of the 4G system supporting NSA, the scene information acquired by the first device in step 302 is a first working scene, and the acquired connection state information is in an idle state or an inactive state. If the service frequency of the cell where the first device is located is less than a preset value (for example, 6GHz), the service frequency is a low-frequency signal, and the cell where the first device is located is a low-frequency cell. If the frequency of the signal of the adjacent NR cell of the cell where the first device is located includes a high-frequency signal greater than a preset value (e.g., 6GHz), and the adjacent NR cell corresponds to the same operator as the cell where the first device is located, the frequency information acquired by the first device in step 302 may be "the service frequency is a low-frequency signal, and there is high-frequency signal coverage of the adjacent NR cell of the same system and the same operator". At this time, when configuration 1 in table 14 is adopted, the first device may determine, according to the mapping relationship corresponding to configuration 1, that the icons corresponding to the m pieces of first parameter information acquired in step 302 are "5G +" icons, so that the first device may display the "5G +" icons.
Specifically, when the first device resides in an LTE cell of a 4G system supporting NSA in a first working scenario and the first device is covered by an NR high frequency cell of the same operator, it may be described that the cell where the first device is located has a possibility of adding the NR high frequency cell as a secondary cell, and thus the first device may display other icons different from the "5G" icon, for example, the "5G +" icon.
(11) The mapping information includes a corresponding relationship between the service type and the scene information and the network icon, and the m pieces of first parameter information acquired by the first device in step 302 includes the service type and the scene information.
Based on this, the step 302 may specifically include:
1101. the first device obtains the service type according to the service currently used by the first device.
1102. The first equipment acquires scene information according to the current working scene of the first equipment.
The step 303 may specifically include:
1103. and if the scene information is a third working scene and the service type is Carrier Aggregation (CA) service, the first equipment displays an eleventh network icon.
1104. And if the scene information is a third working scene and the service type is the dual-connection DC service, the first equipment displays a twelfth network icon.
1105. And if the scene information is a third working scene and the service type is the Multiple Input Multiple Output (MIMO) service, the first equipment displays a thirteenth network icon.
1106. Otherwise, the first device displays a fourteenth network icon.
Wherein, when the second communication system is a 5G system, the third working scenario may include: the first device is connected to the NR cell or the first device resides in the NR cell.
As can be seen from the above steps 1103 to 1106, the first device may display different network icons according to different services currently used.
For example, the second communication system is a 5G system, and the correspondence between the service type and the network icon can be seen in table 15.
Watch 15
For example, if the second communication system is a 5G system and the current cell where the first device is located is an NR cell of the 5G system, the scene information acquired by the first device in step 302 is a third working scene. If the first device determines that the service type includes the CA according to the currently used service, the first device may know, according to table 15, that the network icon corresponding to the third working scenario and the CA is the "5G-CA" icon, and thus the first device may display the "5G-CA" icon. If the first device is in the third working scenario and the first device determines that the service type does not include CA, DC, and mion according to the currently used service, the first device may display a 5G icon.
The above table 15 is described by taking an example that the first parameter information in the mapping information includes only the service type, and the first parameter information in the mapping information may further include a combination of the service type and the indication information, the frequency information, the operator information, or the location information. For example, the mapping information includes indication information and correspondence between the service type and the network icon. The indication information is 1bit information, the indication information "1" indicates that an icon of the second communication system is displayed, and the indication information "0" indicates that an icon of the first communication system is displayed.
For example, the second communication system is a 5G system, the first communication system is a 4G system, and the correspondence between the indication information and the service type and the network icon can be seen in table 16 or table 17.
TABLE 16
TABLE 17
(12) The mapping information includes a corresponding relationship between the scene information and the network icon, and the m pieces of first parameter information acquired by the first device in step 302 include the scene information. Based on this, the step 302 may include: the first equipment acquires scene information according to the current working scene of the first equipment. The step 303 may include: and when the scene information is a second working scene, the first equipment displays the network icon of the second communication system. That is, when the first device registers in the core network of the second communication system through the air interface of the first communication system, the first device may display a network icon of the second communication system. For example, when the second communication system is a 5G system and the first communication system is a 4G system, if the first device is registered in a core network of the 5G system through an air interface of the 4G, the first device may display a network icon of the 5G system.
In addition, it should be noted that the above examples are merely examples of the corresponding relationship between the first parameter information and the network icon in the mapping information in the embodiment of the present application, and are not limited specifically. The first parameter information in the mapping information related to the display control method provided in the embodiment of the present application may have other corresponding relationships with the network icon, and the first parameter information in the mapping information may also be other combinations of indication information, frequency information, service type, operator information, and location information, which are not listed here.
Other embodiments of the present application further provide a measurement method, referring to fig. 8, the method may include:
1201. the first device obtains detection information, wherein the detection information includes second parameter information, and the second parameter information includes at least one of measurement information or time information of a cell adjacent to a cell in which the first device is located.
1202. The first device measures signals of the neighboring cells according to the detection information.
In the measurement method, the first device can directly measure the signal of the adjacent cell according to the measurement information of the adjacent cell of the cell where the first device is located in the acquired detection information, and the signal measurement is not required to be carried out after the measurement information such as the frequency of the adjacent cell is searched in advance through blind search, so that the time and the power consumption of the first device in full frequency search can be saved, and the working duration of the first device is prolonged. And, the first device can intermittently measure signals of neighboring cells according to the time information in the acquired detection information without performing measurement continuously in real time, and thus power consumption of the first device can be further reduced.
The second parameter information may specifically include measurement information and time information of a neighboring cell in the target communication system; and/or measurement information and time information of high frequency signals of neighboring cells in the target communication system.
In one aspect, the obtaining, by the first device, the detection information may include: the first device acquires detection information prefabricated on the first device. Specifically, similar to the mapping information, the detection information may be pre-fabricated in a location such as a SIM card or a memory of the first device. In this way, the information is pre-formed on the first device when detecting the information, and the first device can conveniently, directly and intermittently measure signals of adjacent cells according to the pre-formed measurement information and the time information so as to reduce the power consumption of the first device.
In another aspect, the obtaining, by the first device, the detection information may include: the first device acquires detection information from the third device. Wherein the third device may be the same device as the second device, e.g., the third device may be a base station; alternatively, the third device may be a different device from the second device, for example, the third device may be a cloud server. Compared with the case that the first device acquires the detection information from the base station, the first device acquires the detection information from the cloud server and other devices, so that the overhead of air interface signaling of the base station can be saved.
The measurement method provided by the embodiment of the present application can also be applied to the process of the display control method described in the above embodiment. Specifically, in the solutions described in (7) to (10), although not shown in the drawings, before acquiring the frequency information in step 701, step 801, step 902, or step 1002, the method may further include:
1301. the first device acquires detection information, wherein the detection information comprises second parameter information, and the second parameter information comprises at least one of measurement information or time information of a neighboring cell.
1302. The first device measures signals of the neighboring cells according to the detection information.
Therefore, when the first device performs display control of the network icon, the first device can directly measure the signal of the adjacent cell according to the measurement information of the adjacent cell of the cell where the first device is located in the acquired detection information, and signal measurement is not required after the measurement information such as the frequency of the adjacent cell is searched in a blind search mode, so that the time and power consumption of the first device in full frequency search can be saved, and the working duration of the first device is prolonged. And, the first device can intermittently measure signals of neighboring cells according to the time information in the acquired detection information without performing measurement continuously in real time, and thus power consumption of the first device can be further reduced.
In the schemes (7) - (10) above, the frequency information in the m pieces of first parameter information in step 302 is used to indicate that the service frequency of the cell where the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of an adjacent cell of the second communication system and the operator. After measuring the obtained signals of the neighboring cells, in step 701, step 801, step 902 or step 1002, the first device may determine whether there is signal coverage of the neighboring cells by measuring the signals of the neighboring cells through the detection information to determine whether there is high frequency signal coverage of the neighboring cells of the second communication system and the operator. If the first device determines that there is high-frequency signal coverage of the second communication system and the adjacent cell of the operator, and the service frequency of the cell where the first device is located is a low-frequency signal, the frequency information in the m pieces of first parameter information acquired by the first device is that "the service frequency is a low-frequency signal, there is high-frequency signal coverage of the second communication system and the adjacent cell of the operator", and the first device may display an icon corresponding to the frequency information.
As applied to the schemes (7) to (10), the target communication system may be a second communication system, and the second parameter information may specifically include measurement information and time information of neighboring cells in the second communication system; and/or measurement information and time information of high frequency signals of neighboring cells in the second communication system.
When the second parameter information includes measurement information and time information of a neighboring cell in the second communication system, for example, if the second communication system is a 5G system, the second parameter information may include measurement information and time information of an NR neighboring cell of a cell in which the first device is located.
When the second parameter information includes measurement information and time information of high frequency signals of neighboring cells in the second communication system, the first device may directly measure the high frequency signals of the neighboring cells in the second communication system according to the detection information to determine whether there is coverage of the high frequency signals of the neighboring cells in the second communication system, so that the first device may conveniently obtain the frequency information of the m pieces of first parameter information in the schemes (7) to (10) above according to whether there is coverage of the high frequency signals of the neighboring cells in the second communication system.
The second parameter information in the detection information includes measurement information and time information of an adjacent cell, and specifically, the measurement information and the time information of an adjacent cell of the same operator corresponding to the cell where the first device is located in the second communication system may also be included; or, specifically, the measurement information and the time information may be of high frequency signals of neighboring cells of the same operator corresponding to the cell where the first device is located in the second communication system. In this way, it is convenient for the first device to determine whether there is coverage of the high-frequency signal of the second communication system and the neighboring cell of the operator according to the detection information, so as to obtain the frequency information in the m pieces of first parameter information in the schemes (7) to (10) above.
In some other embodiments of the present application, the detection information may further include a correspondence between the second parameter information and at least one third parameter information, where the third parameter information includes operator information or location information. That is, the measurement information and the time information of the signals of the neighboring cells are related to the operation information and/or the location information, and the measurement information and the time information of the signals of the neighboring cells may be different if the operation information and/or the location information are different. The operator information may be information such as PLMN identifier. The location information may be a country code, a provincial code, or GPS positioning information, etc. The measurement information may include a serving frequency of the cell, a frequency band of the cell, or cell information. The time information may be periodic information on which the first device performs measurement, or the time information may be applied to a timer (timer).
For example, the first device may obtain service frequencies of cells of different operators, or obtain timers of the cells of different operators, or obtain service frequencies of the cells of different operators in different geographical locations, or obtain timers of the cells of different operators in different geographical locations, and the like according to the detection information, so as to perform signal measurement according to the obtained information.
Wherein, referring to (a), (b) and (c) in fig. 9, the period information may be an interval between a start time of the first measurement and a start time of the second measurement, or an interval between an end time of the first measurement and a start time of the second measurement when the first device performs two adjacent measurements (i.e., measures signals of adjacent cells); or the interval between the end time of the first measurement and the end time of the second measurement.
When the time information is applied to the timer, the time information may be used for at least one of: the time information is used for the first equipment to measure when the timer is overtime, and the timer is started or restarted; or, the time information is used for starting or restarting a timer when the first device finishes measuring; or the time information is used for starting a timer after the first device acquires the detection information; or the time information is used for the first device to measure after acquiring the information, and the timer is started or restarted when the measurement is started, or the timer is started or restarted when the measurement is finished.
For example, the detection information includes a corresponding relationship between third parameter information and second parameter information, and the third parameter information includes location information and operator information; the second communication system is a 5G system, the second parameter information includes the service frequency, the frequency band, and the timer of the adjacent NR cell, and the service frequency, the frequency band, and the timer of the high frequency signal of the adjacent NR cell, and the detection information may be as shown in table 17. Here, the location information "US" indicates the united states, and the location information "CHINA" indicates CHINA.
Watch 18
For example, in the scheme of configuration 1 provided in (8) above, if the second communication system is a 5G system, the first device resides in a NR low frequency (e.g., <6GHz) cell, the operation information of the first device is PLMN1, and the location information of the first device is CHINA, the first device may look up the service frequency, frequency band, and timer of the NR high frequency signal corresponding to PLMN1 and CHINA in table 18, specifically as shown in an underlined part in table 18. At this time, the first device may transmit the service data according to the service frequencies f1, f 2; or the band2 directly measures the high frequency signals of the adjacent NR cells in the above (8) according to the band1, thereby saving the time and power consumption for full frequency blind detection; also, the first device may directly measure the high frequency signal of the adjacent NR cell in (8) above according to the timer 3, thereby avoiding high power consumption caused by real-time measurement. When the first device determines that the first device is covered by the high-frequency signal (for example, greater than or equal to 6GHz) of the neighboring cell operated by the second communication system by measuring according to the service frequencies f1, f2 or the frequency bands band1, band2 and the timer 3, the frequency information in the m pieces of first parameter information acquired by the first device in step 302 is "the service frequency is a low-frequency signal and the high-frequency signal of the neighboring cell operated by the same system and the same operator is covered", and the first device may display a "5G +" icon corresponding to the frequency information in configuration 1.
It will be appreciated that the first device, in order to carry out the above-described functions, comprises corresponding hardware and/or software modules for performing the respective functions. The present application is capable of being implemented in hardware or a combination of hardware and computer software in conjunction with the exemplary algorithm steps described in connection with the embodiments disclosed herein. Whether a function is performed as hardware or computer software drives hardware depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, with the embodiment described, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.
In the embodiment of the present application, the first device may be divided into the functional modules according to the above method example, for example, each functional module may be divided corresponding to each function, or two or more functions may be integrated into one processing module. The integrated module may be implemented in the form of hardware. It should be noted that, in the embodiment of the present application, the division of the module is schematic, and is only one logic function division, and there may be another division manner in actual implementation.
In the case of dividing each functional module by corresponding functions, fig. 10 shows a possible composition diagram of the first device 1400 involved in the above embodiments, as shown in fig. 10, the first device 1400 may include: a first acquisition unit 1401, a second acquisition unit 1402, a third acquisition unit 1403, a display unit 1404, and a measurement unit 1405. Furthermore, the first obtaining unit 1401, the second obtaining unit 1402, and the third obtaining unit 1403 may be three independent modules respectively, or may be an integral obtaining module, and the embodiment of the present application is not particularly limited.
Among other things, the first obtaining unit 1401 may be used to support the first device 1400 in performing the above-described step 301, etc., and/or other processes for the techniques described herein.
The second obtaining unit 1402 may be used to support the first device 1400 to perform the above steps 501-.
The display unit 1404 may be used to support the first device 1400 to perform the steps 503-504, 603-604, 703-704, 804-807, 904-905, 1405-1408, 1103-1106, etc., and/or other processes for the techniques described herein.
Third acquisition unit 1403 may be used to support first device 1400 in performing step 1301 above, and/or other processes for the techniques described herein.
Measurement unit 1405 may be used to support first device 1400 in performing step 1302 described above, and/or other processes for the techniques described herein.
It should be noted that all relevant contents of each step related to the above method embodiment may be referred to the functional description of the corresponding functional module, and are not described herein again.
The first device provided in the embodiment of the present application is configured to execute the implementation method for displaying the service information in the preview interface, so that the same effect as that of the implementation method can be achieved.
In case an integrated unit is employed, the first device may comprise a processing module and a memory module. The processing module may be configured to control and manage actions of the first device, for example, may be configured to support the first device to perform the steps performed by the first obtaining unit 1401, the second obtaining unit 1402, the third obtaining unit 1403, the display unit 1404, and the measurement unit 1405. The memory module may be used to support the first device in storing mapping information, detection information, program code and data, and the like. In addition, the first device may further include a communication module that may be used to support communication of the first device with other devices. For example, the processing module may control the communication module to obtain mapping information or detection information, etc. from other devices.
The processing module may be a processor or a controller. Which may implement or perform the various illustrative logical blocks, modules, and circuits described in connection with the disclosure. The processor may be a combination that implements a computing function, and may include, for example, a combination of one or more microprocessors, a combination of a Digital Signal Processing (DSP) and a microprocessor, or the like. The storage module may be a memory. The communication module may specifically be a radio frequency circuit, a bluetooth chip, a wifi chip, or other devices that interact with other first devices.
In an embodiment, when the processing module is a processor and the storage module is a memory, the first device according to the embodiment of the present application may be a device having the structure shown in fig. 2.
The embodiment of the present application further provides a computer storage medium, where a computer instruction is stored in the computer storage medium, and when the computer instruction runs on the first device, the first device is enabled to execute the relevant method steps to implement the display control method in the foregoing embodiment.
The embodiment of the present application further provides a computer program product, which when running on a computer, causes the computer to execute the above related steps, so as to implement the display control method in the preview interface in the above embodiment.
In addition, embodiments of the present application also provide an apparatus, which may be specifically a chip, a component or a module, and may include a processor and a memory connected to each other; the memory is used for storing computer execution instructions, and when the device runs, the processor can execute the computer execution instructions stored in the memory, so that the chip can execute the display control method in the above method embodiments.
The first device, the computer storage medium, the computer program product, or the chip provided in the embodiments of the present application are all configured to execute the corresponding method provided above, so that the beneficial effects achieved by the first device, the computer storage medium, the computer program product, or the chip may refer to the beneficial effects in the corresponding method provided above, and are not described herein again.
It is clear to those skilled in the art from the foregoing description of the embodiments that, for convenience and simplicity of description, the above-mentioned division of the functional modules is merely used as an example, and in practical applications, the above-mentioned function distribution can be completed by different functional modules according to needs, that is, the internal structure of the device is divided into different functional modules to complete all or part of the above-mentioned functions.
In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described embodiments of the apparatus are merely illustrative, and for example, a module or a unit may be divided into only one logic function, and may be implemented in other ways, for example, a plurality of units or components may be combined or integrated into another apparatus, or some features may be omitted or not executed. In addition, the shown or discussed coupling or direct coupling or communication connection between each other may be through some interfaces, indirect coupling or communication connection of devices or units, and may be in an electrical, mechanical or other form.
Units described as separate parts may or may not be physically separate, and parts displayed as units may be one physical unit or a plurality of physical units, may be located in one place, or may be distributed to a plurality of different places. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.
The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a readable storage medium. Based on such understanding, the technical solutions of the embodiments of the present application may be essentially or partially contributed to by the prior art, or all or part of the technical solutions may be embodied in the form of a software product, where the software product is stored in a storage medium and includes several instructions to enable a device (which may be a single chip, a chip, or the like) or a processor (processor) to execute all or part of the steps of the methods of the embodiments of the present application. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.
The above description is only an embodiment of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions within the technical scope of the present disclosure should be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.
Claims (30)
1. A display control method, comprising:
the method comprises the steps that a first device obtains mapping information, wherein the mapping information comprises a plurality of corresponding relations, the corresponding relations are used for representing the corresponding relations between n first parameter information and a plurality of network icons, n is a positive integer, the first parameter information comprises indication information, frequency information, service types, operator information, position information, connection state information or scene information, and the connection state information comprises an idle state, an inactive state or a connection state;
the first equipment acquires m pieces of first parameter information from second equipment and/or according to the working state of the first equipment, wherein m is a positive integer less than or equal to n and the like;
and the first equipment displays the network icons according to the corresponding relation between the m pieces of first parameter information and the network icons.
2. The display control method according to claim 1, wherein the scene information includes:
a first working scene, wherein a cell where the first equipment is located is a cell of a first communication system and supports joint networking with a second communication system; or,
in a second working scenario, the first device is registered in a core network of the second communication system through an air interface of the first communication system; or,
in a third working scene, the cell where the first device is located is a cell of a second communication system; or,
and in a fourth working scenario, the first device is connected to the base station of the first communication system, and the first device has a secondary base station of the second communication system.
3. The display control method according to claim 2, wherein the operating state of the first device includes:
the service frequency of the cell in which the first device is located, the frequency of a signal of an adjacent cell of the cell in which the first device is located, the service currently used by the first device, the operator currently used by the first device, the current location of the first device, the current connection state of the first device, or the current working scene of the first device.
4. The display control method according to any one of claims 1 to 3, wherein the indication information is broadcast information received by the first device from the second device.
5. The display control method according to any one of claims 1 to 4, wherein the operator information comprises a public land mobile network, PLMN, identity;
the location information includes at least one of a country code, a provincial code, or global positioning system GPS information.
6. The display control method according to any of claims 1-5, wherein the service type comprises at least one of a carrier aggregation, CA, dual connectivity, DC, or multiple input multiple output, MIMO, service.
7. The display control method according to any one of claims 1 to 6, wherein the first device acquires mapping information including:
the first equipment acquires the mapping information prefabricated on the first equipment;
or, the first device acquires the mapping information from a third device, where the third device is different from the second device.
8. The method according to claim 7, wherein the acquiring, by the first device, the mapping information prefabricated on the first device includes:
the first equipment acquires the mapping information prefabricated in a Subscriber Identity Module (SIM) card of the first equipment;
or, obtaining the mapping information prefabricated in the memory of the first device.
9. The display control method according to any one of claims 3 to 8, wherein the m pieces of the first parameter information include the indication information for indicating whether to display a network icon of a second communication system and the frequency information; the frequency information is used for indicating whether the service frequency of the cell where the first equipment is located is a high-frequency signal, and the frequency of the high-frequency signal is greater than or equal to a preset value;
the method for acquiring m pieces of first parameter information from a second device and/or according to the working state of the first device by the first device includes:
the first device receiving the indication information from the second device;
the first equipment acquires the frequency information according to the service frequency of the cell in which the first equipment is located;
the first device displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon, and the method comprises the following steps:
if the indication information indicates that the network icon of the second communication system is displayed, and the frequency information indicates that the service frequency of the cell where the first equipment is located is a high-frequency signal, the first equipment displays the first network icon of the second communication system;
and if the indication information indicates that the network icon of the second communication system is displayed, and the frequency information indicates that the service frequency of the cell in which the first equipment is located is not a high-frequency signal, the first equipment displays the second network icon of the second communication system.
10. The display control method according to any one of claims 3 to 8, wherein the m pieces of first parameter information include the frequency information and the scene information, the frequency information is used to indicate whether a service frequency of a cell in which the first device is located is a high-frequency signal, and a frequency of the high-frequency signal is greater than or equal to a preset value;
the method for acquiring m pieces of first parameter information from a second device and/or according to the working state of the first device by the first device includes:
the first equipment acquires the frequency information according to the service frequency of the cell in which the first equipment is located;
the first equipment acquires the scene information according to the current working scene of the first equipment;
the first device displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon, and the method comprises the following steps:
when the scene information is the third working scene or the fourth working scene, if the frequency information indicates that the service frequency of the cell where the first device is located is a high-frequency signal, the first device displays a first network icon of the second communication system;
and if the frequency information indicates that the service frequency of the cell in which the first equipment is positioned is not a high-frequency signal, the first equipment displays a second network icon of the second communication system.
11. The display control method according to any one of claims 3 to 8, wherein the m pieces of first parameter information include the frequency information, the connection state information, and the scenario information, the frequency information is used to indicate that a service frequency of a cell where the first device is located is a low frequency signal, and whether the first device is covered by a high frequency signal of an adjacent cell of the second communication system and an operator, the frequency of the low frequency signal is smaller than a preset value, and the frequency of the high frequency signal is greater than or equal to the preset value;
the method for acquiring m pieces of first parameter information from a second device and/or according to the working state of the first device by the first device includes:
the first equipment acquires the frequency information according to the service frequency of the cell where the first equipment is located and the frequency of the signal of the adjacent cell of the cell where the first equipment is located;
the first equipment acquires the connection state information according to the current connection state;
the first equipment acquires the scene information according to the current working scene of the first equipment;
the first device displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon, and the method comprises the following steps:
when the scene information is the third working scene, the frequency information indicates that the service frequency of the cell where the first device is located is a low-frequency signal, if the connection state information is in an idle state or an inactive state, and the frequency information indicates that the first device is covered by a high-frequency signal of an adjacent cell of the second communication system and the operator, the first device displays a third network icon;
if the connection state information is in a connection state and the frequency information indicates that the first device is covered by high-frequency signals of adjacent cells of the second communication system and the operator, the first device displays a fourth network icon;
if the connection state information is in an idle state or an inactive state, and the frequency information indicates that the first device does not have high-frequency signal coverage of the second communication system and an adjacent cell of an operator, the first device displays a fifth network icon;
if the connection state information is in a connection state and the frequency information indicates that the first device does not have the high-frequency signal coverage of the second communication system and the adjacent cell of the operator, the first device displays a sixth network icon;
wherein the third network icon, the fourth network icon, the fifth network icon, and the sixth network icon may be the same or different.
12. The display control method according to any one of claims 3 to 8, wherein the m pieces of first parameter information include the indication information for indicating whether to display a network icon of a second communication system, the frequency information, the connection status information, and the scene information; the frequency information is used for indicating that the service frequency of the cell where the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of an adjacent cell of the second communication system and an operator, wherein the frequency of the low-frequency signal is smaller than a preset value, and the frequency of the high-frequency signal is larger than or equal to the preset value;
the method for acquiring m pieces of first parameter information from a second device and/or according to the working state of the first device by the first device includes:
the first device receiving the indication information from the second device;
the first equipment acquires the frequency information according to the service frequency of the cell where the first equipment is located and the frequency of the signal of the adjacent cell of the cell where the first equipment is located;
the first equipment acquires the connection state information according to the current connection state;
the first equipment acquires the scene information according to the current working scene of the first equipment;
the first device displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon, and the method comprises the following steps:
when the scene information is the first working scene or the second working scene, the indication information indicates to display a network icon of the second communication system, and the frequency information indicates that the service frequency of the cell where the first device is located is a low-frequency signal, if the state information is in an idle state or an inactive state and the frequency information indicates that the first device is covered by high-frequency signals of the second communication system and an adjacent cell of an operator, the first device displays a seventh network icon of the second communication system;
if the state information is in an idle state or an inactive state, and the frequency information indicates that the first device does not have high-frequency signal coverage of the second communication system and an adjacent cell of an operator, the first device displays an eighth network icon of the second communication system;
if the state information is in a connected state and the frequency information indicates that the first device is covered by high-frequency signals of adjacent cells of the second communication system and an operator, the first device displays a ninth network icon of the second communication system;
if the state information is in a connected state and the frequency information indicates that the first device does not have the high-frequency signal coverage of the second communication system and the adjacent cell of the operator, the first device displays a tenth network icon of the second communication system;
wherein the seventh network icon, the eighth network icon, the ninth network icon, and the tenth network icon may be the same or different.
13. The display control method according to claim 11 or 12, wherein before the first device acquires the frequency information, the method further comprises:
the first equipment acquires detection information, wherein the detection information comprises second parameter information, and the second parameter information comprises at least one of measurement information or time information of high-frequency signals of adjacent cells;
and the first equipment measures signals of adjacent cells according to the detection information.
14. The method according to claim 13, wherein the detection information further includes a correspondence relationship between second parameter information and at least one third parameter information, and the third parameter information includes operator information or location information.
15. The display control method according to claim 13 or 14, wherein the first device acquires detection information including:
the first equipment acquires the detection information prefabricated on the first equipment;
or, the first device acquires the detection information from the third device.
16. The display control method according to any one of claims 3 to 8, wherein the m pieces of the first parameter information include the service type and the scene information; the method for acquiring m pieces of first parameter information from a second device and/or according to the working state of the first device by the first device includes:
the first equipment acquires the service type according to the service currently used by the first equipment;
the first equipment acquires the scene information according to the current working scene of the first equipment;
the first device displays the network icon according to the corresponding relation between the m pieces of first parameter information and the network icon, and the method comprises the following steps:
when the scene information is the third working scene, if the service type is Carrier Aggregation (CA) service, the first device displays an eleventh network icon;
if the service type is a dual connectivity DC service, the first device displays a twelfth network icon;
if the service type is a multiple-input multiple-output (MIMO) service, the first equipment displays a thirteenth network icon;
otherwise, the first device displays a fourteenth network icon.
17. A first device comprising a display screen, one or more processors, and one or more memories; the display screen, the one or more memories coupled with the one or more processors, the one or more memories to store computer program code, the computer program code comprising computer instructions that, when executed by the one or more processors,
the processor is configured to obtain mapping information, where the mapping information includes a plurality of corresponding relationships, the corresponding relationships are used to represent corresponding relationships between n pieces of first parameter information and a plurality of network icons, n is a positive integer, the first parameter information includes indication information, frequency information, a service type, operator information, location information, connection status information, or scene information, and the connection status information includes an idle state, an inactive state, or a connection state;
acquiring m pieces of first parameter information from second equipment and/or according to the working state of the first equipment, wherein m is a positive integer less than or equal to n and the like;
the display screen is used for displaying the network icons according to the corresponding relation between the m pieces of first parameter information and the network icons.
18. The first device of claim 17, wherein the context information comprises:
a first working scene, wherein a cell where the first equipment is located is a cell of a first communication system and supports joint networking with a second communication system; or,
in a second working scenario, the first device is registered in a core network of the second communication system through an air interface of the first communication system; or,
in a third working scene, the cell where the first device is located is a cell of a second communication system; or,
and in a fourth working scenario, the first device is connected to the base station of the first communication system, and the first device has a secondary base station of the second communication system.
19. The first device of claim 18, wherein the operational state of the first device comprises:
the service frequency of the cell in which the first device is located, the frequency of a signal of an adjacent cell of the cell in which the first device is located, the service currently used by the first device, the operator currently used by the first device, the current location of the first device, the current connection state of the first device, or the current working scene of the first device.
20. The first device according to any of claims 17-19, wherein the indication information is broadcast information received by the first device from the second device;
the operator information comprises public land mobile network, PLMN, identities;
the location information comprises at least one of a country code or a provincial code or Global Positioning System (GPS) information;
the service type includes at least one of a carrier aggregation, CA, service, a dual connectivity, DC, service, or a multiple input multiple output, MIMO, service.
21. The first device according to any of claims 17-20, wherein the processor is specifically configured to:
acquiring the mapping information prefabricated on the first equipment;
or obtaining the mapping information from a third device, the third device being different from the second device.
22. The first device according to any one of claims 19 to 21, wherein the m pieces of the first parameter information include the indication information and the frequency information, the indication information indicating whether to display a network icon of a second communication system; the frequency information is used for indicating whether the service frequency of the cell where the first equipment is located is a high-frequency signal, and the frequency of the high-frequency signal is greater than or equal to a preset value;
the processor is specifically configured to receive the indication information from the second device;
acquiring the frequency information according to the service frequency of the cell in which the first equipment is located;
the display screen is specifically configured to display a first network icon of the second communication system if the indication information indicates that a network icon of the second communication system is displayed, and the frequency information indicates that a service frequency of a cell in which the first device is located is a high-frequency signal;
and if the indication information indicates that the network icon of the second communication system is displayed, and the frequency information indicates that the service frequency of the cell in which the first equipment is located is not a high-frequency signal, displaying the second network icon of the second communication system.
23. The first device according to any one of claims 19 to 21, wherein the m pieces of first parameter information include the frequency information and the scenario information, the frequency information is used to indicate whether a service frequency of a cell in which the first device is located is a high-frequency signal, and a frequency of the high-frequency signal is greater than or equal to a preset value;
the processor is specifically configured to obtain the frequency information according to a service frequency of a cell in which the first device is located;
acquiring the scene information according to the current working scene of the first device;
the display screen is specifically configured to, when the scene information is the third working scene or the fourth working scene, display a first network icon of the second communication system if the frequency information indicates that the service frequency of the cell in which the first device is located is a high-frequency signal;
and if the frequency information indicates that the service frequency of the cell in which the first equipment is positioned is not a high-frequency signal, displaying a second network icon of the second communication system.
24. The first device according to any one of claims 19 to 21, wherein the m pieces of first parameter information include the frequency information, the connection status information, and the scenario information, where the frequency information is used to indicate that a service frequency of a cell where the first device is located is a low frequency signal, and whether the first device is covered by a high frequency signal of an adjacent cell of the second communication system and an operator, a frequency of the low frequency signal is less than a preset value, and a frequency of the high frequency signal is greater than or equal to the preset value;
the processor is specifically configured to obtain the frequency information according to the service frequency of the cell in which the first device is located and the frequency of the signal of the cell adjacent to the cell in which the first device is located;
acquiring the connection state information according to the current connection state;
acquiring the scene information according to the current working scene of the first device;
the display screen is specifically configured to, when the scene information is the third working scene and the frequency information indicates that the service frequency of the cell in which the first device is located is a low-frequency signal, display a third network icon if the connection state information is in an idle state or an inactive state and the frequency information indicates that the first device is covered by a high-frequency signal of an adjacent cell of the second communication system and the operator;
if the connection state information is in a connection state and the frequency information indicates that the first device is covered by high-frequency signals of adjacent cells of the second communication system and the operator, displaying a fourth network icon;
if the connection state information is in an idle state or an inactive state, and the frequency information indicates that the first device does not have high-frequency signal coverage of the second communication system and an adjacent cell of an operator, displaying a fifth network icon;
if the connection state information is in a connection state and the frequency information indicates that the first device does not have the high-frequency signal coverage of the second communication system and the adjacent cell of the operator, displaying a sixth network icon;
wherein the third network icon, the fourth network icon, the fifth network icon, and the sixth network icon may be the same or different.
25. The first device according to any one of claims 19 to 21, wherein the m pieces of first parameter information include the indication information, the frequency information, the connection status information, and the scenario information, and the indication information is used to indicate whether to display a network icon of a second communication system; the frequency information is used for indicating that the service frequency of the cell where the first device is located is a low-frequency signal, and whether the first device is covered by a high-frequency signal of an adjacent cell of the second communication system and an operator, wherein the frequency of the low-frequency signal is smaller than a preset value, and the frequency of the high-frequency signal is larger than or equal to the preset value;
the processor is specifically configured to receive the indication information from the second device;
acquiring the frequency information according to the service frequency of the cell in which the first equipment is positioned and the frequency of the signal of the adjacent cell of the cell in which the first equipment is positioned;
acquiring the connection state information according to the current connection state;
acquiring the scene information according to the current working scene of the first device;
the display screen is specifically configured to, when the scene information is the first working scene or the second working scene, indicate and display a network icon of the second communication system by the indication information, and the frequency information indicates that a service frequency of a cell in which the first device is located is a low-frequency signal, display a seventh network icon of the second communication system if the state information is in an idle state or an inactive state and the frequency information indicates that the first device is covered by a high-frequency signal of an adjacent cell of the second communication system and an operator;
if the state information is in an idle state or an inactive state, and the frequency information indicates that the first device does not have high-frequency signal coverage of the second communication system and an adjacent cell of an operator, displaying an eighth network icon of the second communication system;
if the state information is in a connected state and the frequency information indicates that the first device is covered by high-frequency signals of adjacent cells of the second communication system and an operator, displaying a ninth network icon of the second communication system;
if the state information is in a connected state and the frequency information indicates that the first device does not have the high-frequency signal coverage of the second communication system and the adjacent cell of the operator, displaying a tenth network icon of the second communication system;
wherein the seventh network icon, the eighth network icon, the ninth network icon, and the tenth network icon may be the same or different.
26. The first device of claim 24 or 25, wherein the processor is further configured to:
before acquiring the frequency information, acquiring detection information, wherein the detection information comprises second parameter information, and the second parameter information comprises at least one of measurement information or time information of a high-frequency signal of a neighboring cell;
and measuring signals of the adjacent cells according to the detection information.
27. The first device of any one of claims 19-21, said m said first parameter information comprising said service type and said context information;
the processor is specifically configured to obtain the service type according to a service currently used by the first device;
acquiring the scene information according to the current working scene of the first device;
the display screen is specifically configured to, when the scene information is the third working scene, display an eleventh network icon if the service type is a carrier aggregation CA service;
displaying a twelfth network icon if the service type is a dual connectivity DC service;
if the service type is a multiple-input multiple-output (MIMO) service, displaying a thirteenth network icon;
otherwise, a fourteenth network icon is displayed.
28. An apparatus comprising one or more processors and one or more memories;
the one or more memories coupled with the one or more processors for storing computer program code comprising computer instructions which, when executed by the one or more processors, cause the apparatus to perform the display control method of any of claims 1-16.
29. A computer storage medium comprising computer instructions that, when executed on a computer, cause the computer to perform the display control method of any one of claims 1-16.
30. A chip characterised in that the chip comprises a processor for enabling a first device to implement a display control method as claimed in any one of claims 1 to 16.
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