WO2021018077A1 - Electronic apparatus, wireless communication method, and computer readable storage medium - Google Patents
Electronic apparatus, wireless communication method, and computer readable storage medium Download PDFInfo
- Publication number
- WO2021018077A1 WO2021018077A1 PCT/CN2020/104750 CN2020104750W WO2021018077A1 WO 2021018077 A1 WO2021018077 A1 WO 2021018077A1 CN 2020104750 W CN2020104750 W CN 2020104750W WO 2021018077 A1 WO2021018077 A1 WO 2021018077A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- information
- gid
- function
- electronic device
- wireless communication
- Prior art date
Links
Images
Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W8/00—Network data management
- H04W8/02—Processing of mobility data, e.g. registration information at HLR [Home Location Register] or VLR [Visitor Location Register]; Transfer of mobility data, e.g. between HLR, VLR or external networks
- H04W8/08—Mobility data transfer
- H04W8/14—Mobility data transfer between corresponding nodes
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F16/00—Information retrieval; Database structures therefor; File system structures therefor
- G06F16/20—Information retrieval; Database structures therefor; File system structures therefor of structured data, e.g. relational data
- G06F16/29—Geographical information databases
Definitions
- the embodiments of the present disclosure generally relate to the field of wireless communication, and in particular to electronic devices, wireless communication methods, and computer-readable storage media. More specifically, the present disclosure relates to an electronic device as a network-side device in a wireless communication system, an electronic device as a user equipment in a wireless communication system, an electronic device as a data center in a wireless communication system, A wireless communication method performed by a network-side device in a wireless communication system, a wireless communication method performed by a user equipment in a wireless communication system, a wireless communication method performed by a data center in a wireless communication system, and a A computer-readable storage medium.
- the network elements in the wireless communication system After the network elements in the wireless communication system perform certain functions, they will generate a lot of useful information, such as cell ID, frequency information, and Doppler shift value. However, this information is usually discarded after the network element performs the function, but in fact they can be reused to make the communication more efficient.
- NTN Non-terrestrial network, non-terrestrial network
- measurement results are easily outdated due to satellite movement and communication delays. Therefore, the parameters obtained through measurement are of little significance in wireless communication systems including NTN.
- the parameters required by the network element to perform certain functions in the wireless communication system including NTN have a strong correlation with the geographic location.
- GID Geographic Information Database
- the purpose of the present disclosure is to provide an electronic device, a wireless communication method and a computer-readable storage medium to construct a GID to record data or parameters generated in the process of performing certain functions by a network element, so as to realize the sharing of GID information , To assist other network elements to perform the same or similar functions.
- an electronic device including a processing circuit, configured to determine whether a geographic information database GID information matching a function to be performed is stored, the GID information including a function to be performed Associated data; without storing GID information matching the function to be performed, generating request information for requesting GID information matching the function to be performed; sending the request information to other devices; And execute the function to be executed according to the result of the request. .
- an electronic device including a processing circuit configured to receive, from another device, request information for requesting GID information of a geographic information database matching a function to be performed by the other device And sending to the other device response information including GID information that matches the function to be performed by the other device for the other device to perform the function to be performed according to the GID information, wherein The GID information includes data associated with the function to be performed.
- a wireless communication method executed by an electronic device including: determining whether a geographic information database GID information matching the function to be executed is stored, the GID information including Function-related data; in the case where GID information matching the function to be executed is not stored, request information for requesting GID information matching the function to be executed is generated; and the request information is sent to other devices ; And execute the function to be executed according to the result of the request.
- a wireless communication method performed by an electronic device, including: receiving request information from another device for requesting GID information of a geographic information database matching a function to be performed by the other device And sending to the other device response information including GID information that matches the function to be performed by the other device for the other device to perform the function to be performed according to the GID information, wherein
- the GID information includes data associated with the function to be performed.
- a computer-readable storage medium including executable computer instructions that, when executed by a computer, cause the computer to execute the wireless communication method according to the present disclosure.
- the electronic device can request other devices to match the function to be performed when determining that GID information matching the function to be performed is not stored GID information.
- the GID information includes data generated by other electronic devices in the process of performing such functions. In this way, the electronic device can share GID information with other devices, so that functions can be performed more quickly and efficiently.
- FIG. 1 is a schematic diagram showing a network architecture according to an embodiment of the present disclosure
- Fig. 2 is a schematic diagram showing a network element in a wireless communication system according to an embodiment of the present disclosure
- FIG. 3 is a block diagram showing an example of the configuration of an electronic device serving as a user equipment according to an embodiment of the present disclosure
- FIG. 4 is a schematic diagram showing the composition of GID information according to an embodiment of the present disclosure.
- FIG. 5 shows an example of GID information according to an embodiment of the present disclosure
- FIG. 6 is a block diagram showing an example of the configuration of an electronic device serving as a network-side device according to an embodiment of the present disclosure
- FIG. 7 is a signaling flowchart showing a process of performing functions based on GID information according to an embodiment of the present disclosure
- FIG. 8 is a signaling flowchart showing a process of performing functions based on GID information according to an embodiment of the present disclosure
- FIG. 9 is a signaling flowchart showing a process of performing functions based on GID information according to an embodiment of the present disclosure.
- Fig. 10 is a flowchart showing a process of performing a function based on GID information by a UE (User Equipment) according to an embodiment of the present disclosure
- FIG. 11 is a signaling flowchart showing a process of performing a function based on GID information according to an embodiment of the present disclosure
- FIG. 12 is a block diagram showing an example of the configuration of an electronic device serving as a user equipment according to an embodiment of the present disclosure
- FIG. 13 is a block diagram showing an example of the configuration of an electronic device serving as a network side device according to an embodiment of the present disclosure
- FIG. 14 is a block diagram showing an example of the configuration of an electronic device used as a data center according to an embodiment of the present disclosure
- 15 is a flowchart showing a wireless communication method performed by an electronic device according to an embodiment of the present disclosure
- FIG. 16 is a flowchart showing a wireless communication method performed by an electronic device according to another embodiment of the present disclosure.
- FIG. 17 is a schematic diagram showing a scenario in which GID information is used to avoid frequency interference according to an embodiment of the present disclosure
- FIG. 18 is a block diagram showing a first example of a schematic configuration of an eNB (Evolved Node B);
- FIG. 19 is a block diagram showing a second example of the schematic configuration of an eNB
- FIG. 20 is a block diagram showing an example of a schematic configuration of a smart phone.
- FIG. 21 is a block diagram showing an example of a schematic configuration of a car navigation device.
- Example embodiments are provided so that this disclosure will be thorough and will fully convey its scope to those skilled in the art. Numerous specific details such as examples of specific components, devices, and methods are described to provide a detailed understanding of the embodiments of the present disclosure. It will be obvious to those skilled in the art that no specific details need to be used, and the example embodiments can be implemented in many different forms, and none of them should be construed as limiting the scope of the present disclosure. In some example embodiments, well-known processes, well-known structures, and well-known technologies are not described in detail.
- FIG. 1 is a schematic diagram showing a network architecture according to an embodiment of the present disclosure.
- the wireless communication system includes one or more network side devices such as gNB (base station in the 5th generation communication system), and each network side device provides services for one or more UEs.
- the wireless communication system according to the embodiment of the present disclosure further includes one or more DC (Data Center, data center), and the DC can be accessed by a network side device such as a gNB. Furthermore, there may be interfaces between DCs to share information between each DC.
- gNB base station in the 5th generation communication system
- DC Data Center, data center
- the UE, the network side device, and the DC can all generate GID information. Further, the UE, the network side device, and the DC may separately construct GIDs to store the GID information generated by each. In addition, the DC can store the GID information generated by the UE and the network-side device, and each DC can share the stored GID information. In this way, GID information can be shared among various network elements, that is, each network element in the entire wireless communication system can obtain GID information stored in other network elements when needed.
- the wireless communication system according to the present disclosure may be a 5G (5th generation) or 6G (6th generation) communication system.
- the wireless communication system according to the present disclosure may include NTN (Non-terrestrial network, non-terrestrial network) and TN (Terrestrial network, terrestrial network).
- the DC according to the present disclosure may be any type of electronic device that can be accessed.
- the DC may be electronic equipment deployed on the core network, including NTN-DC and TN-DC.
- NTN-DC network-side equipment deployed on the core network
- TN-DC network-side equipment deployed on the core network
- the network-side equipment in NTN can access NTN-DC
- the network-side equipment in TN can access TN-DC.
- the network side device may be any type of TRP (Transmit and Receive Port), and may also be a base station device, for example, an eNB or a gNB. Further, the network side equipment may be a TN base station equipment or an NTN base station equipment. When the network side device is a TN base station device, the network side device may be located on the ground. When the network side device is a base station device of NTN, the network side device may be located on the satellite device.
- TRP Transmit and Receive Port
- satellite equipment may include GEO (Geosynchronous Orbit, geosynchronous orbit) satellite equipment, LEO (Low Earth Orbit, near earth orbit) satellite equipment, MEO (Medium Earth Orbit, medium earth orbit) satellite equipment, HEO (Highly Elliptical Orbiting, High elliptical orbit) satellite equipment and HAPS (High Altitude Platform Station, high altitude platform).
- GEO Global System for Mobile Communications
- LEO Low Earth Orbit, near earth orbit
- MEO Medium Earth Orbit, medium earth orbit
- HEO Highly Elliptical Orbiting, High elliptical orbit
- HAPS High Altitude Platform Station, high altitude platform
- the base station equipment in NTN can be a transparent base station equipment, that is, it only has the function of receiving and sending information, and does not have the ability to process data.
- the transparent base station equipment receives the information, it must be forwarded to the Other equipment with processing capabilities (for example, processing equipment located on the ground) performs data processing.
- the base station equipment in the NTN can also be a non-transparent base station equipment, that is, it has the capability of data processing.
- the user equipment may be a mobile terminal (such as a smart phone, a tablet personal computer (PC), a notebook PC, a portable game terminal, a portable/dongle type mobile router, and a digital camera) or a vehicle-mounted terminal (such as a car navigation device) ).
- the user equipment may also be implemented as a terminal (also referred to as a machine type communication (MTC) terminal) that performs machine-to-machine (M2M) communication.
- MTC machine type communication
- M2M machine-to-machine
- the user equipment may be a wireless communication module (such as an integrated circuit module including a single chip) installed on each of the aforementioned terminals.
- Fig. 2 is a schematic diagram showing network elements in a wireless communication system according to an embodiment of the present disclosure.
- three network elements, UE, network side equipment and DC are shown.
- Figure 2 shows two UEs: UE1 and UE2.
- Figure 2 shows a network element as a network-side device using gNB as an example.
- gNB can include TN-gNB and NTN-gNB, where TN-gNB is a base station device located on the ground, and NTN-gNB can be a satellite device Base station equipment.
- NTN-gNB may also include transparent NTN-gNB and non-transparent NTN-gNB.
- Figure 2 also shows DC, including NTN-DC and TN-DC.
- GID information can be exchanged between various network elements.
- the number 1 in FIG. 2 shows the process of exchanging GID information between UEs.
- the UEs can implement this process through D2D (Device to Device) communication.
- the label 2 in Fig. 2 shows the process in which the UE requests GID information from the non-transparent NTN-gNB.
- the number 3 in Fig. 2 shows the process of the UE requesting GID information from the transparent NTN-gNB.
- the label 4 in Figure 2 shows the process of non-transparent NTN-gNB requesting GID information from NTN-DC.
- the symbol 5 in Fig. 2 shows the process of the UE requesting GID information from the TN-gNB.
- the label 6 in Figure 2 shows the process of TN-gNB requesting GID information from TN-DC.
- the present disclosure expects to propose an electronic device in a wireless communication system, a wireless communication method executed by an electronic device in a wireless communication system, and a computer-readable storage medium based on the above-mentioned network structure, so as to construct a GID to be recorded in a network element to execute a certain
- the data or parameters generated during the function process can realize the sharing of GID information to assist other network elements to perform the same or similar functions.
- the electronic device that transmits request information for requesting GID information will be described in detail below. It can be seen from Figure 2 that the UE can request GID information from other UEs or network-side devices, and the network-side device can request GID information from the DC that it can access. Therefore, the electronic device that sends request information for requesting GID information according to the present disclosure may be a UE or a network side device. The following describes such UE and network side equipment respectively.
- FIG. 3 is a block diagram showing an example of the configuration of an electronic device 300 according to an embodiment of the present disclosure.
- the electronic device 300 here may be a user device that sends request information for requesting GID information.
- the electronic device 300 may include a determination unit 310, a storage unit 320, a request generation unit 330, a communication unit 340, and a processing unit 350.
- each unit of the electronic device 300 may be included in the processing circuit.
- the electronic device 300 may include one processing circuit or multiple processing circuits.
- the processing circuit may include various discrete functional units to perform various different functions and/or operations. It should be noted that these functional units may be physical network elements or logical network elements, and units with different titles may be implemented by the same physical network element.
- the determining unit 310 may determine whether GID information matching the function to be executed is stored, and the GID information includes data associated with the function to be executed.
- the function to be performed may be a communication function expected by the electronic device 300 in various processes of wireless communication, including but not limited to network access, Doppler shift compensation, and synchronization signal detection.
- the determining unit 310 may determine whether the GID information matching the network access function is stored.
- the determining unit 310 may determine whether the GID information matching the Doppler spectrum compensation is stored.
- the storage unit 320 may be used to store GID information.
- the GID information includes GID information generated by the electronic device 300 itself, and may also include GID information obtained by the electronic device 300 from other devices.
- all GID information stored in the storage unit 320 is equivalent to constructing a GID.
- the determining unit 310 may determine whether the GID information matching the function to be executed is stored in the storage unit 320.
- the request generating unit 330 may generate a GID for requesting matching with the function to be executed Information request information.
- the electronic device 300 may transmit the request information generated by the request generating unit 330 to other devices through the communication unit 340.
- the processing unit 350 is used to execute a function to be executed according to the result of the request.
- the result of the request may include whether response information including GID information matching the function to be executed is received from other devices. Further, in the case of receiving response information including GID information matching the function to be executed from another device, the result of the request may also include the received GID information matching the function to be executed.
- the electronic device 300 may request GID information matching the function to be performed from other devices in the case where it is determined that no GID information matching the function to be performed is stored.
- the GID information includes data generated by other electronic devices in the process of performing such functions. In this way, the electronic device can share GID information with other devices, so that functions can be performed more quickly and efficiently.
- the GID information stored in the storage unit 320 includes location information, time information, type information, and data information. Further, the location information includes the location where the GID information is generated, the time information includes the time when the GID information is generated, the type information includes the type of the function targeted by the GID information, and the data information includes data generated during the execution of the function.
- FIG. 4 is a schematic diagram showing the composition of GID information according to an embodiment of the present disclosure.
- GID information includes location information and content.
- the content includes type information, time information and data information.
- FIG. 4 shows an example of N pieces of GID information, and each piece of GID information may include location information, time information, type information, and data information.
- the determining unit 310 determines whether the GID information matching the function to be executed is stored in the storage unit 320, only the location information included in the GID information corresponds to the current location of the electronic device 300.
- the determining unit 310 can determine that such GID information matches the current time. Function matches.
- the determining unit 310 may determine FIG. 4 The first piece of GID information in is matched with the function to be performed by the electronic device 300.
- the determining unit 310 may determine that the location information included in the GID information corresponds to the current location of the electronic device 300. match.
- the electronic device 300 may have a positioning function such as GPS, so that the current location of the electronic device 300 may be determined. Further, the determining unit 310 may determine the location where the piece of GID information is generated according to the location information included in the GID information, thereby determining the distance between the location where the GID information is generated and the current location of the electronic device 300, and determining whether it is less than the distance threshold.
- a positioning function such as GPS
- the determining unit 310 may determine the distance threshold according to the type of function to be performed. In other words, for functions that require relatively high distance accuracy, the distance threshold can be set smaller, and for functions that require relatively low distance accuracy, the distance threshold can be set larger. In other words, for a function, it is assumed that the data generated by executing this function at position A and position B are relatively the same, and position A and position B are far apart, indicating that the function requires relatively low distance accuracy. The distance threshold is set larger. For another example, for another function, the data generated by executing the function at two locations that are very close to each other are not the same, indicating that the function requires a relatively high distance accuracy, and the distance threshold for this function can be set to a small value. some.
- the distance threshold can be determined according to the type of function to be performed, so that the GID information can be more accurately matched with the function to be performed.
- the electronic device 300 can directly use the matched GID information to perform the function to be executed.
- the time information included in the GID information may include not only the time when the GID information is generated, but also the operation period of the target device for which the GID information is targeted.
- the target device targeted by the GID information may include a satellite device, so the time information in the GID information includes the operating period of the satellite device.
- the determining unit 310 may determine that the time information included in the GID information matches the current time.
- the determining unit 310 may obtain the time and operating period for generating the GID information according to the time information included in the GID information, so as to determine whether the difference between the time for generating the GID information and the current time is an integer multiple of the operating period.
- the determining unit 310 may determine that the type information included in the GID information matches the type of the function to be executed.
- the determining unit 310 determines that the location information of the GID information stored in the determining storage unit 320 matches the current location, the time information matches the current time, and the type information matches the function to be executed. Only when the types match, can it be determined that the GID information matches the function to be performed. In other words, when the location information, time information, and type information all match, it means that there is a network element that performs the same type of function as the function to be performed by the electronic device 300 before time T, at or near the current location.
- T represents an integer multiple of the operating cycle
- the network element may be the electronic device 300 itself, or an electronic device other than the electronic device 300. In this case, the electronic device 300 can utilize such GID information.
- the processing unit 350 may utilize the information included in the GID information matching the function to be executed Data information performs this function.
- the data information in the GID information includes data generated in the process of performing a function, and preferably includes useful data generated in the process of performing a function, or data that is beneficial to performing the function.
- the data information may include the working mode of the cell, the CP (Cyclic Prefix) configuration of the cell, etc.; for the function type of Doppler shift compensation, the data information may include Doppler The value of the frequency shift.
- the electronic device 300 when the electronic device 300 stores GID information that matches the function to be executed, the electronic device 300 can directly use the matched GID information, thereby omitting the need to perform the function. Some preliminary steps to perform the functions to be performed more quickly and efficiently.
- the request information generated by the request generating unit 330 may include the current location of the electronic device 300, the current time, and the type of function to be executed.
- the electronic device 300 may receive response information including GID information matching the function to be performed from other devices through the communication unit 340.
- other devices after obtaining the current location, current time, and type of function to be performed by the electronic device 300, other devices can use a method similar to the determining unit 310 to determine whether the storage is stored or whether it can be stored. Obtain the GID information that matches the function to be executed. Further, in the case that the other electronic device stores GID information matching the function to be performed by the electronic device 300 or can obtain GID information matching the function to be performed by the electronic device 300, the response information may be sent to the electronic device 300 To include the GID information.
- the processing unit 350 may utilize data information included in the GID information that matches the function to be performed Perform this function.
- the electronic device 300 may also receive the GID from the electronic device that matches the function to be executed.
- the information is stored in the storage unit 320.
- the GID information stored in the storage unit 320 of the electronic device 300 is richer, which is convenient for later use of the GID information or for providing the GID information to other devices.
- the electronic device 300 can obtain GID information matching the function to be executed from other devices, the electronic device 300 can directly utilize the matched GID information, thereby omitting the execution of the function Some pre-order steps required to perform the functions to be performed more quickly and efficiently.
- the electronic device 300 stores the GID information matching the function to be executed and the case where the electronic device 300 can obtain the GID information matching the function to be executed from other devices have been described.
- the electronic device does not store GID information that matches the function to be executed, and does not obtain GID information that matches the function to be executed from other devices.
- the electronic device 300 may determine that the GID information matching the function to be executed cannot be acquired from the device by receiving response information from other devices indicating that there is no GID information matching the function to be executed.
- the electronic device 300 may also set a timer, and when the timer expires and does not receive GID information matching the function to be executed from another device, it may be determined that the function to be executed cannot be obtained from the device. Match GID information.
- the electronic device 300 may further include a GID information generating unit 360, which is used to store GID information that matches the function to be executed and does not obtain information from other devices that matches the function to be executed.
- the processing unit 350 generates GID information after the function is executed.
- the GID information generating unit 360 may use the current location of the electronic device 300 as the location information in the GID information, include the current time in the time information in the GID information, and use the type of function performed as the type information in the GID information . Further, the GID information generating unit 360 includes the data generated during the execution of the function in the data information in the GID information.
- the position information in the generated GID information may include a point position in the form of three-dimensional coordinates, and may also include a regional position indicating a geographic area.
- regional locations can be used to represent location information, thereby simplifying the process of obtaining location information and reducing the number of bits required for location information.
- the time information in the generated GID information may include, for example, the current time represented by a timestamp based on a unified time system, such as UTC (Universal Standard Time), and may also include what the GID information is for.
- UTC Universal Standard Time
- the operating cycle of the target device since the target device may be a satellite device, and the movement of the satellite device has a certain periodicity, the parameters at two time points that differ by an integer multiple of the operation period are the same or similar, so the time information including the operation period can be changed. Match GID information well.
- the type of function may be a basic description of the effect of the function, that is, the effect that the network element can achieve through the function.
- it can include Doppler frequency shift compensation, synchronization signal detection, network access, service distribution, frequency usage, etc.
- the present disclosure is applicable to various functions in the wireless communication process, so the type of functions is not limited.
- the data information in the generated GID information may include the target device targeted by the GID information, the attribute of the data information, and the value of the data information.
- the target device targeted by the GID information indicates the target involved in the function executed when the GID information is generated.
- the target device for which the GID information generated by the electronic device 300 is directed may be a satellite device that communicates with the electronic device 300, that is, it needs to be performed between the electronic device 300 and the satellite device. Doppler frequency shift compensation.
- the attributes of the data information indicate the parameters specifically related to the data information.
- the attribute of the data information may be Doppler shift.
- the value of the data information indicates the value of the parameter specifically related to the data information.
- the value of the data information represents the value of Doppler shift.
- the GID information generating unit 360 may generate one or more pieces of GID information according to the generated data.
- the generated GID information may be stored in the storage unit 320.
- the GID information stored in the storage unit 320 of the electronic device 300 is richer, which is convenient for later use of the GID information or for providing the GID information to other devices.
- the electronic device 300 may also send the generated GID information to the network side device or DC through the communication unit 340. In this way, the GID information generated by the electronic device 300 can be shared in the entire wireless communication system through the interface between different DCs.
- the electronic device 300 may selectively report some GID information, for example, determine whether to report the GID information according to the function type of the GID information.
- the electronic device 300 may also report all generated GID information to the network side device or DC.
- the electronic device 300 may periodically report one or more pieces of generated GID information, or may trigger the report of the generated GID information as an event.
- the above-mentioned GID information reporting manner of the electronic device 300 can be configured by the network side device, which is not limited in the present disclosure.
- the electronic device 300 can generate GID information and store and/or report the GID information.
- the network side device and the DC can also generate GID information.
- the GID information generated by the electronic device 300 mainly includes the link information of the electronic device 300, such as Doppler frequency shift value, beam angle information and satellite ephemeris information, etc.
- the GID information generated by the network side device mainly includes cell-level information. Information, such as the user’s service distribution, the average delay of data packets, and the success probability of random access.
- the GID information generated by DC mainly includes network-level information, such as frequency usage information of multiple network-side devices, Load situation and cell drop rate, etc.
- the network-side device After the network-side device generates the GID information, it can be reported to the DC. Similar to the electronic device 300, the network-side device can selectively report some GID information, for example, according to the function type of the GID information to determine whether to report the GID information. Optionally, the network side device can also report all generated GID information to the DC. In addition, the network-side device may periodically report one or more pieces of generated GID information, or may trigger the report of the generated GID information on an eventual basis.
- FIG. 5 shows an example of GID information according to an embodiment of the present disclosure.
- Doppler frequency shift compensation is taken as an example to show the GID information generated by the UE, where the function type is Doppler frequency shift compensation, and the target device in the data information includes the ID or cell ID of the satellite device.
- the time information includes the operating period and time stamp of the satellite equipment, the attribute of the data information is the Doppler frequency shift, and the value of the data information is the specific value of the Doppler frequency shift.
- Figure 5 shows the GID information generated by gNB using the service distribution of all users served by gNB as an example.
- the function type is service distribution.
- the target device in the data information includes the satellite ID or cell ID of the gNB as a satellite device.
- the information includes the operating period and time stamp of the satellite equipment, the attribute of the data information is the business state, and the value of the data information is the specific value of the business state.
- Figure 5 shows the GID information generated by DC using the frequency usage of multiple gNBs as an example, where the function type is frequency usage, and the target device in the data information includes the satellite IDs or cell IDs of multiple gNBs as satellite devices, and time information Including the operating period and time stamp of the satellite equipment, the attribute of the data information is frequency, and the value of the data information is the specific value of the frequency.
- the electronic device 300 may request GID information from other user devices around it, that is, the other devices include other user devices around the electronic device 300.
- the electronic device 300 may broadcast transmission request information to other user equipment.
- the electronic device 300 may also request GID information from the network-side device serving it, that is, other devices include the network-side device that provides services for the electronic device 300.
- the electronic device 300 may further include a decision unit 370 for determining other devices to which request information is sent. That is, the decision unit 370 can determine which device or devices to send the request information to. For example, the decision unit 370 may determine to send request information to user equipment around the electronic device 300. For another example, the decision unit 370 may determine to send the request information to the network side device serving the electronic device 300.
- the decision unit 370 may determine other devices according to the D2D capability of the electronic device 300. For example, when the electronic device 300 is capable of D2D communication, the decision unit 370 may determine that other devices are user equipment around the electronic device 300; when the electronic device 300 is not capable of D2D communication, the decision unit 370 may determine other devices It is a network side device that serves the electronic device 300.
- the decision unit 370 may also first determine that other devices are user devices around the electronic device 300. That is, when the electronic device 300 does not store GID information matching the function to be executed, the request information is sent to surrounding user devices. Since the electronic device 300 communicates with other user equipment in a D2D manner, the required GID information can be obtained more quickly. Further, according to an embodiment of the present disclosure, when the electronic device 300 does not obtain GID information matching the function to be performed from other user equipment, the decision unit 370 may determine that the other device is a network side device serving the electronic device 300 . That is, in a case where the electronic device 300 does not obtain GID information matching the function to be executed from other user devices, the electronic device 300 may send request information to the network side device. Here, compared to the user equipment, the GID information stored in the GID of the network side device is more comprehensive, so the electronic device 300 is more likely to obtain the required GID information.
- the decision unit 370 of the electronic device 300 can make a decision based on certain criteria for the electronic device 300 to send request information to the user equipment around the electronic device 300 and/or to the network side device serving the electronic device 300 , Which can quickly and reliably obtain the required GID information.
- the electronic device 300 of the embodiment of the present disclosure when the GID information that matches the function to be executed is stored, the matched GID information can be directly used, thereby omitting some of the prerequisites required to execute the function. Sequence steps to perform the functions to be performed more quickly and efficiently.
- the electronic device 300 determines that no GID information matching the function to be executed is stored, it may request the GID information matching the function to be executed from other devices.
- the GID information includes data generated by other electronic devices in the process of performing such functions. In this way, the electronic device 300 can share GID information with other devices, and can also perform functions more quickly and efficiently.
- the electronic device 300 may generate GID information and store the GID information and/or after performing the corresponding function. Report the GID information to the network side device.
- the electronic device 300 can request the required GID information from other user devices around it or the network side device serving the electronic device 300, thereby quickly and reliably acquiring the required GID information.
- the electronic device 600 for sending request information for requesting GID information will be described below.
- the electronic device 600 here may be a network side device in a wireless communication system.
- FIG. 6 is a block diagram showing an example of the configuration of an electronic device 600 according to an embodiment of the present disclosure.
- the electronic device 600 may include a determination unit 610, a storage unit 620, a request generation unit 630, a communication unit 640, and a processing unit 650.
- the electronic device 600 may further include a GID information generating unit 660.
- each unit of the electronic device 600 may be included in the processing circuit. It should be noted that the electronic device 600 may include one processing circuit or multiple processing circuits. Further, the processing circuit may include various discrete functional units to perform various different functions and/or operations. It should be noted that these functional units may be physical network elements or logical network elements, and units with different titles may be implemented by the same physical network element.
- the determination unit 610, the storage unit 620, the request generation unit 630, the communication unit 640, the processing unit 650, and the GID information generation unit 660 shown in FIG. 6 are respectively the same as the determination unit 310, the storage unit 320, and the request generation shown in FIG.
- the unit 330, the communication unit 340, the processing unit 350, and the GID information generating unit 360 have a one-to-one correspondence, so the same parts as those in FIG. 3 are not repeated here. Only the functionally different parts from the electronic device 300 of FIG. 3 are described below.
- the electronic device 600 may receive GID information generated by the user device from a user device served by the electronic device 600 through the communication unit 640 and store the received GID information in the storage unit 620. Further, the electronic device 600 may configure a manner of reporting GID information for the user equipment it serves, including periodic reporting, event-triggered reporting, reporting cycle, and the like. Further, according to an embodiment of the present disclosure, the electronic device 600 may report the received GID information to a DC accessible by the electronic device 600 through the communication unit 640. Thus, both the electronic device 600 and the DC can obtain and store the GID information generated by the user equipment. In addition, the electronic device 600 may also report the GID information generated by the GID information generating unit 660 to the DC. In this way, GID information is shared among various network elements in the wireless communication system.
- the other device may be a DC that the electronic device 600 can access. That is, the electronic device 600 may request the required GID information from DC.
- the electronic device 600 when the electronic device 600 is a network side device in the NTN network, the electronic device 600 can request the required GID information from the DC in the NTN network; when the electronic device 600 is a network side device in the TN network, the electronic device 600 The required GID information can be requested from the DC in the TN network.
- the electronic device 600 of the embodiment of the present disclosure when the GID information that matches the function to be executed is stored, the matched GID information can be directly used, thereby omitting some of the prerequisites for executing the function. Sequence steps to perform the functions to be performed more quickly and efficiently.
- the electronic device 600 determines that the GID information matching the function to be executed is not stored, it may request the GID information matching the function to be executed from other devices. In this way, the electronic device 600 can share GID information with other devices, and can also perform functions more quickly and efficiently.
- the electronic device 600 may generate GID information and store the GID information and/or after performing the corresponding function. Report the GID information to the DC.
- the electronic device 600 can request the required GID information from the DC, and thus can quickly and reliably obtain the required GID information.
- FIGS. 7-11 a flowchart of a process of executing functions based on GID information according to an embodiment of the present disclosure will be described with reference to FIGS. 7-11.
- Figures 7-9 and Figure 11 are signaling flowcharts illustrating a process of performing functions based on GID information according to an embodiment of the present disclosure.
- FIG. 10 is a flowchart illustrating a process of performing a function based on GID information by a UE according to an embodiment of the present disclosure.
- FIG. 7 is a signaling flow chart showing a process of a UE requesting GID information from other UEs (neighboring UEs) around it, that is, corresponding to the process shown by reference numeral 1 in FIG. 2.
- the UE may be implemented by the electronic device 300.
- the UE determines whether the GID information matching the function to be executed is stored.
- the UE sends request information for requesting GID information to the neighboring UE.
- the request information may include, for example, the current location of the UE, the current time, and the type of function that the UE will perform.
- the UE may broadcast the request information, so that other UEs within a certain range around the UE can receive the request information.
- the neighboring UE that has received the request information searches for GID information that matches the function to be performed by the UE that sends the request information, that is, determines whether it stores a function that matches the function that the UE that sends the request information will perform. Matching GID information.
- step S704 assuming that the neighboring UE has stored GID information that matches the function to be performed by the UE sending the request information, the UE sending the request information sends response information carrying the GID information.
- the UE performs a function using the received GID information.
- step S705 the UE executes the corresponding function using the stored GID information matching the function to be executed.
- step S706 after the UE executes the function, the GID information is generated and stored.
- Figure 8 is a signaling flow chart showing the process of the UE requesting GID information from the network-side equipment served by the UE.
- the network-side equipment here can be a TN-gNB or a non-transparent NTN-gNB, which corresponds to the figure
- the process in 2 is shown by the labels 2 and 5.
- the UE may be implemented by the electronic device 300.
- step S801 the UE determines whether GID information matching the function to be executed is stored. If the GID information matching the function to be executed is not stored, in step S802, the UE sends request information for requesting GID information to the network side device.
- the request information may include, for example, the current location of the UE, the current time, and the type of function that the UE will perform.
- the network side device searches for GID information matching the function to be performed by the UE sending the request information, that is, determines whether it stores GID information matching the function to be performed by the UE sending the request information.
- step S804 assuming that the network-side device stores GID information matching the function to be performed by the UE sending the request information, it sends response information carrying the GID information to the UE sending the request information.
- the UE performs a function using the received GID information.
- step S805 the UE executes the corresponding function using the stored GID information matching the function to be executed.
- step S806 after the UE executes the function, the GID information is generated and stored.
- FIG. 9 is a signaling flow chart showing the process of a UE requesting GID information from a network-side device serving it.
- the network-side device here can be a transparent NTN-gNB, which corresponds to the reference number 3 in Figure 2 Out of the process.
- the UE may be implemented by the electronic device 300.
- step S901 the UE determines whether the GID information matching the function to be executed is stored.
- step S902 the UE sends request information for requesting GID information to the network side device.
- the request information may include, for example, the current location of the UE, the current time, and the type of function that the UE will perform.
- the network side device forwards the request information from the UE to the DC.
- the transparent NTN-gNB since the transparent NTN-gNB does not have the ability to process data, it directly forwards the request information to a DC, such as NTN-DC.
- the NTN-DC searches for GID information matching the function to be performed by the UE sending the request information, that is, determines whether it stores GID information matching the function to be performed by the UE sending the request information.
- step S905 assuming that the NTN-DC stores GID information matching the function to be performed by the UE sending the request information, it sends response information carrying the GID information to the transparent NTN-gNB.
- step S906 the transparent NTN-gNB forwards the response information to the UE.
- step S907 the UE performs a function using the received GID information.
- the UE determines in step S901 that the GID information matching the function to be executed is stored, in step S907, the UE executes the corresponding function using the stored GID information matching the function to be executed.
- step S908 after the UE executes the function, the GID information is generated and stored.
- FIG. 10 is a flowchart illustrating a process of performing a function based on GID information by a UE according to an embodiment of the present disclosure.
- FIG. 10 may be a flowchart executed by the electronic device 300.
- step S1001 the UE determines whether GID information matching the function to be executed is stored. If the determination in step S1001 is no, in step S1002, the UE broadcasts the transmission request information to the neighboring UE.
- step S1003 the UE determines whether response information including required GID information is received from a neighboring UE. If the determination in step S1003 is No, in step S1004, the UE sends request information to the gNB.
- step S1005 the UE determines whether response information including GID information is received from the gNB. In a case where the determination in step S1005 is YES, in step S1008, the UE executes the corresponding function using the received GID information, and then the process ends. In the case where the determination in step S1005 is no, in step S1006, the UE directly executes the corresponding function.
- step S1007 the UE generates GID information and stores the GID information, and then the process ends. In a case where the determination in step S1003 is YES, the process goes to step S1008. In step S1008, the UE uses the received GID information to perform a corresponding function, and then the process ends. In the case where the determination is YES in step S1001, the process goes to step S1008. In step S1008, the UE performs a corresponding function using the stored GID information, and then the process ends.
- FIG. 11 is a signaling flowchart showing a process of a network-side device requesting GID information from a DC that it can access.
- the network side device here may be a TN-gNB, which may request GID information from TN-DC, which corresponds to the process shown by the reference number 6 in FIG. 2.
- the network side device can also be a non-transparent NTN-gNB, which can request GID information from the NTN-DC, which corresponds to the process shown by the reference 4 in FIG. 2.
- the gNB may be implemented by the electronic device 600. As shown in FIG. 11, in step S1101, the gNB determines whether GID information matching the function to be executed is stored.
- step S1102 the gNB sends request information for requesting GID information to the DC.
- the request information may include, for example, the current location of the gNB, the current time, and the type of function to be performed by the gNB.
- step S1103 the DC that has received the request information searches for GID information that matches the function that the gNB that sends the request information will perform, that is, determines whether it stores a function that matches the function that the gNB that sends the request information will perform. GID information.
- step S1104 assuming that the DC stores the GID information matching the function to be performed by the gNB sending the request information, it sends response information carrying the GID information to the gNB sending the request information.
- step S1105 the gNB executes a function using the received GID information.
- the gNB determines in step S1101 that GID information matching the function to be executed is stored
- step S1105 the gNB executes the corresponding function using the stored GID information matching the function to be executed.
- the GID information is generated and stored.
- the electronic device 300 and the electronic device 600 for transmitting request information according to an embodiment of the present disclosure are described above.
- the electronic device for receiving request information according to an embodiment of the present disclosure will be described in detail below.
- the electronic device for receiving request information may be a user equipment, a network side device, or a DC. These three situations will be described separately below.
- FIG. 12 is a block diagram showing the structure of an electronic device 1200 in a wireless communication system according to an embodiment of the present disclosure.
- the electronic device 1200 may be an electronic device that receives request information for requesting GID information, for example, a user equipment in a wireless communication system.
- the electronic device 1200 may include a communication unit 1210 and a response information generating unit 1220.
- each unit of the electronic device 1200 may be included in the processing circuit.
- the electronic device 1200 may include one processing circuit or multiple processing circuits.
- the processing circuit may include various discrete functional units to perform various different functions and/or operations. It should be noted that these functional units may be physical network elements or logical network elements, and units with different titles may be implemented by the same physical network element.
- the electronic device 1200 may receive request information for requesting GID information matching the function to be performed by the other device from the other device through the communication unit 1210, the GID information includes being associated with the function to be performed by the other device The data.
- the response information generating unit 1220 may generate response information in response to the received request information.
- the response information may include GID information that matches the function to be performed by other devices.
- the electronic device 1200 may send response information including response information to another device through the communication unit 1210 for the other device to perform a function to be performed using the GID information included in the response information.
- the electronic device 1200 can send response information including the GID information required by the other device to the other device when receiving the request information from the other device.
- the electronic device 1200 can share GID information with other devices, so that other devices can perform functions more quickly and efficiently.
- the GID information includes location information, time information, type information, and data information.
- the location information includes the location where the GID information is generated
- the time information includes the time when the GID information is generated
- the type information includes the type of the function targeted by the GID information.
- Data information includes data generated during the execution of the function.
- other devices may be other user devices around the electronic device 1200. That is, the electronic device 1200 may receive request information for requesting GID information from other user devices around it.
- the request information received by the electronic device 1200 may include the current location of the other device, the current time, and the type of function to be performed by the other device.
- the electronic device 1200 may further include a storage unit 1240 for storing GID information.
- the GID information stored in the storage unit 1240 may be GID information generated by the electronic device 1200, or may be GID information obtained from other devices, such as other user equipment or network side devices.
- the electronic device 1200 may further include a determining unit 1230 for determining whether the storage unit 1240 stores in the storage unit 1240 GID information matching the function to be performed by the other device that sends the request information.
- the response information generating unit 1220 may determine the information determined by the determining unit 1230 The matched GID information is included in the response information. Further, in a case where the determining unit 1230 determines that the storage unit 1240 does not store GID information that matches the function to be performed by the other device that sends the request information, the response information generating unit 1220 may indicate that the other device that does not store and send the request information will The information of the GID information that matches the executed function is included in the response information.
- the electronic device 1200 may not send any information to the other device.
- the location information included in the GID information matches the current location of other devices
- the time information included in the GID information matches the current time
- the type information included in the GID information matches the other device's If the types of functions match, the determining unit 1230 may determine that the GID information matches the functions to be performed by other devices.
- the determining unit 1230 may determine that the location information included in the GID information matches the current location of the other device.
- the determining unit 1230 may determine the distance threshold according to the type of function to be performed by other devices.
- the time information included in the GID information may also include the operating cycle of the target device targeted by the GID information. Further, in the case where the difference between the time when the GID information is generated and the current time is an integer multiple of the operating period, the determining unit 1230 may determine that the time information included in the GID information matches the current time.
- the determining unit 1230 may determine the type information included in the GID information and the type of the function to be performed by the other device Match.
- the determining unit 1230 can determine whether the GID information stored in the storage unit 1240 matches the function to be performed by the user equipment that sends the request information.
- the manner in which the determining unit 1230 determines whether the GID information matches or not may be the same as the manner in which the determining unit 310 determines whether the GID information matches or not, and will not be repeated here.
- the data information in the GID information stored in the storage unit 1240 may include the target device targeted by the GID information, the attribute of the data information, and the value of the data information.
- the time information in the GID information stored in the storage unit 1240 may also include the operating period of the target device.
- the user equipment according to the embodiments of the present disclosure can generate and send request information for requesting GID information to other devices, and can also receive request information for requesting GID information from other user equipment, so the user equipment can have
- the structure of the electronic device 300 may also include the structure of the electronic device 1200. That is, the user equipment according to the present disclosure may be provided with a determination unit 310, a storage unit 320, a request generation unit 330, a communication unit 340, and a response information generation unit 1220. Optionally, the user equipment according to the present disclosure may also be provided with one or more of the processing unit 350, the GID information generating unit 360, and the decision unit 370.
- the determining unit 1230, storage unit 1240, and communication unit 1210 in the electronic device 1200 implement the same functions as the determining unit 310, storage unit 320, and communication unit 340 in the electronic device 300, the user equipment may only have the determining unit 310, The storage unit 320 and the communication unit 340 do not need to have the determination unit 1230, the storage unit 1240, and the communication unit 1210.
- FIG. 13 is a block diagram showing the structure of an electronic device 1300 in a wireless communication system according to an embodiment of the present disclosure.
- the electronic device 1300 may be an electronic device that receives request information for requesting GID information, such as a network side device in a wireless communication system, and the network side device may be located on a satellite device or a ground device.
- the electronic device 1300 may include a communication unit 1310 and a response information generating unit 1320.
- the electronic device 1300 may further include a determining unit 1330 and a storage unit 1340.
- each unit of the electronic device 1300 may be included in the processing circuit.
- the electronic device 1300 may include one processing circuit or multiple processing circuits.
- the processing circuit may include various discrete functional units to perform various different functions and/or operations. It should be noted that these functional units may be physical network elements or logical network elements, and units with different titles may be implemented by the same physical network element.
- the communication unit 1310, the response information generation unit 1320, the determination unit 1330, and the storage unit 1340 are respectively the same as the communication unit 1210, response information generation unit 1220, determination unit 1230, and storage unit 1240 described above.
- the function and structure of is not repeated here, and only the differences from the previous embodiment are described.
- the other device may be a user device within the service range of the electronic device 1300, that is, the electronic device 1300 may receive request information from the user device it serves.
- the electronic device 1300 may be a non-transparent network-side device, that is, a network-side device with data processing capabilities.
- the electronic device 1300 may determine through the determining unit 1330 whether the storage unit 1340 stores GID information that matches the function to be performed by the user equipment sending the request information.
- the electronic device 1300 may also be a transparent network-side device, that is, a network-side device that does not have data processing capabilities.
- the electronic device 1300 may forward the request information to a DC accessible by the electronic device 1300 through the communication unit 1310.
- the electronic device 1300 may also receive response information including GID information matching the function to be performed by other devices from DC through the communication unit 1310. That is, the DC accessible by the electronic device 1300 performs the function of determining whether there is matching GID information, and the electronic device 1300 only performs the function of forwarding.
- the electronic device 1300 may send report request information for requesting to report GID information to all or part of the user equipment it serves. According to an embodiment of the present disclosure, the electronic device 1300 may determine which user equipment is requested to report GID information according to the current state of the user equipment. For example, the electronic device 1300 may request those user equipments in idle mode to report GID information. Optionally, the electronic device 1300 may also determine which user equipment is requested to report GID information according to the location information of the user equipment.
- the electronic device 1300 may Send the report request information to those user equipment whose geographic location is closer to the user equipment that sent the request information.
- the report request information may include function type information, so that the user equipment that receives the report request information transmits GID information matching the function type information to the electronic device 1300.
- the electronic device 1300 can trigger the user equipment it serves to report GID information, so that the GID information stored by the electronic device 1300 is more comprehensive. Especially when the electronic device 1300 determines that the GID information stored in the storage unit 1340 is incomplete, the electronic device 1300 may request the user equipment of its service to report the GID information.
- the network-side device can generate and send request information for requesting GID information to the data center, and can also receive request information for requesting GID information from the user device, so the network-side device can
- the structure provided with the electronic device 600 may also be provided with the structure of the electronic device 1300. That is, the network-side device according to the present disclosure may be provided with a determination unit 610, a storage unit 620, a request generation unit 630, a communication unit 640, a processing unit 650, and a response information generation unit 1320.
- the user equipment according to the present disclosure may also be provided with a GID information generating unit 660.
- the network side device may only have the determining unit 610.
- FIG. 14 is a block diagram showing the structure of an electronic device 1400 in a wireless communication system according to an embodiment of the present disclosure.
- the electronic device 1400 may be an electronic device that receives request information for requesting GID information, such as a data center in a wireless communication system.
- the electronic device 1400 may include a communication unit 1410 and a response information generating unit 1420.
- the electronic device 1400 may further include a determining unit 1430 and a storage unit 1440.
- each unit of the electronic device 1400 may be included in the processing circuit.
- the electronic device 1400 may include one processing circuit or multiple processing circuits.
- the processing circuit may include various discrete functional units to perform various different functions and/or operations. It should be noted that these functional units may be physical network elements or logical network elements, and units with different titles may be implemented by the same physical network element.
- the communication unit 1410, the response information generation unit 1420, the determination unit 1430, and the storage unit 1440 are respectively the same as the communication unit 1210, response information generation unit 1220, determination unit 1230, and storage unit 1240 described above.
- the function and structure of is not repeated here, and only the differences from the previous embodiment are described.
- the other device may be a network-side device that can access the electronic device 1400, that is, the electronic device 1400 may receive request information from the network-side device.
- the network side equipment can be located on the satellite equipment or on the ground equipment.
- the electronic device 1400 may send report request information for requesting to report GID information to all or part of the network side devices that can access the electronic device 1400.
- the electronic device 1400 receives the GID information from the network side device for requesting matching with the function to be executed, if the determining unit 1430 determines that the storage unit 1440 does not store the required GID information, the electronic device 1400 It is possible to determine which network side device to send the report request information to according to the function to be performed by the network side device that sends the request information.
- the function to be performed by the network side device is frequency usage, and the electronic device 1400 finds that it knows the frequencies of the network side device A and the network side device B, but does not know the frequencies of the network side device C and the network side device D, the electronic device 1400 may send report request information to the network side device C and the network side device D.
- the reporting request information may include function type information, so that the network-side device that receives the reporting request information sends GID information matching the function type information to the electronic device 1400.
- the electronic device 1400 may also send report request information for requesting to report GID information to the user equipment within the service range of the transparent network side device through a transparent network side device that can access the electronic device 1400.
- the electronic device 1400 may determine which user equipment is requested to report GID information according to the current state of the user equipment. For example, the electronic device 1400 may request those user equipment in idle mode to report GID information.
- the electronic device 1400 may also determine which user equipment is requested to report GID information according to the location information of the user equipment.
- the electronic device 1400 may send the report request information to those user equipment whose geographic location is closer to the user equipment sending the request information through the transparent network side device.
- the electronic device 1400 can trigger the network side device or the user equipment to report GID information, so that the GID information stored by the electronic device 1400 is more comprehensive. Especially when the electronic device 1400 determines that the GID information stored in the storage unit 1440 is incomplete, the electronic device 1400 may request the network side device or the user equipment to report the GID information.
- 15 is a flowchart showing a wireless communication method performed by an electronic device that transmits request information for requesting GID information according to an embodiment of the present disclosure.
- step S1510 it is determined whether the geographic information database GID information that matches the function to be executed is stored, and the GID information includes data associated with the function to be executed.
- step S1520 if GID information matching the function to be executed is not stored, request information for requesting GID information matching the function to be executed is generated.
- step S1530 the request information is sent to other devices.
- step S1540 the function to be executed is executed according to the result of the request.
- the GID information includes location information, time information, type information, and data information.
- the location information includes the location where the GID information is generated
- the time information includes the time when the GID information is generated
- the type information includes the type of function targeted by the GID information.
- the data information includes the execution Data generated during the function.
- the wireless communication method further includes: the location information included in the GID information matches the current location of the electronic device, the time information included in the GID information matches the current time, and the type information included in the GID information matches the current location of the electronic device. If the type of the function matches, make sure that the GID information matches the function to be executed.
- the wireless communication method further includes: determining that the location information included in the GID information matches the current location of the electronic device when the distance between the location where the GID information is generated and the current location of the electronic device is less than a distance threshold.
- the wireless communication method further includes: determining a distance threshold according to the type of function to be performed.
- the time information further includes the operating period of the target device targeted by the GID information
- the wireless communication method further includes: determining the GID when the difference between the time when the GID information is generated and the current time is an integer multiple of the operating period The time information included in the information matches the current time.
- the wireless communication method further includes: determining that the type information included in the GID information matches the type of the function to be performed when the type of the function targeted by the GID information is the same as the type of the function to be performed.
- the request information includes the current location of the electronic device, the current time, and the type of function to be executed.
- the wireless communication method further includes: in a case where GID information matching the function to be executed is stored, performing the function using data information included in the GID information matching the function to be executed.
- the wireless communication method further includes: receiving response information including GID information matching the function to be performed from other devices; and performing the function using data information included in the GID information matching the function to be performed.
- the wireless communication method further includes: storing GID information received from other devices that matches the function to be executed.
- the wireless communication method further includes: in the case that GID information matching the function to be executed is not stored, and GID information matching the function to be executed is not obtained from other devices, generating GID after the function is executed Information, and where the location information in the GID information includes the current location of the electronic device, the time information in the GID information includes the current time, and the type information in the GID information includes the type of function, which is determined by the data generated in the process of executing the function Data information in GID information.
- the data information includes the target device targeted by the GID information, the attribute of the data information, and the value of the data information.
- the time information also includes the operating period of the target device.
- the wireless communication method further includes: storing the generated GID information and/or sending the generated GID information to the data center.
- the electronic equipment includes a user equipment
- the other equipment includes other user equipment around the user equipment.
- sending the request information includes: broadcasting the sending request information to other user equipment.
- the electronic equipment includes a user equipment
- the other equipment includes a network side device that provides services for the user equipment.
- the electronic device includes a network-side device, and the other devices include a data center accessible by the network-side device.
- the network side equipment is located on the satellite equipment or on the ground equipment.
- the subject that executes the above method may be the electronic device 300 or the electronic device 600 according to the embodiment of the present disclosure, so all the foregoing embodiments regarding the electronic device 300 or the electronic device 600 are applicable to this.
- FIG. 16 is a flowchart illustrating a wireless communication method performed by an electronic device receiving request information for requesting GID information in a wireless communication system according to an embodiment of the present disclosure.
- step S1610 request information for requesting GID information of a geographic information database that matches the function to be performed by the other device is received from the other device.
- the GID information includes information associated with the function to be performed by the other device. data.
- step S1620 response information including GID information matching the function to be executed by the other device is sent to the other device for the other device to perform the function to be executed.
- the GID information includes location information, time information, type information, and data information.
- the location information includes the location where the GID information is generated
- the time information includes the time when the GID information is generated
- the type information includes the type of function targeted by the GID information.
- the data information includes the execution Data generated during the process of the function.
- the request information includes the current location of the other device, the current time, and the type of function to be performed by the other device.
- the wireless communication method further includes: determining whether the geographic information database GID information that matches the function to be performed by the other device is stored, and wherein the location information included in the GID information matches the current location of the other device.
- the time information included in the information matches the current time
- the type information included in the GID information matches the type of the function to be performed by the other device, it is determined that the GID information matches the function to be performed by the other device.
- the wireless communication method further includes: determining that the location information included in the GID information matches the current location of the other device when the distance between the location where the GID information is generated and the current location of the other device is less than a distance threshold.
- the wireless communication method further includes: determining the distance threshold according to the type of function to be performed by the other device.
- the time information further includes the operating period of the target device targeted by the GID information
- the wireless communication method further includes: determining the GID when the difference between the time when the GID information is generated and the current time is an integer multiple of the operating period The time information included in the information matches the current time.
- the wireless communication method further includes: determining that the type information included in the GID information matches the type of the function to be performed by the other device when the type of the function targeted by the GID information is the same as the type of the function to be performed by the other device .
- the data information includes the target device targeted by the GID information, the attribute of the data information, and the value of the data information.
- the time information also includes the operating period of the target device.
- the electronic equipment includes a user equipment
- the other equipment includes other user equipment around the user equipment.
- the other devices include user equipment
- the electronic device includes a network side device that provides services for the user equipment.
- the wireless communication method further includes: forwarding the request information to a data center; and receiving response information including GID information matching the function to be performed by other devices from the data center.
- the other equipment includes a network-side equipment
- the electronic equipment includes a data center accessible by the network-side equipment.
- the network side equipment is located on the satellite equipment or on the ground equipment.
- the subject that executes the above method may be the electronic device 1200, the electronic device 1300, or the electronic device 1400 according to the embodiment of the present disclosure. Therefore, all of the electronic device 1200, the electronic device 1300, or the electronic device 1400 in the foregoing The embodiments are all applicable to this.
- the embodiments of the present disclosure can be used in various communication processes (or functions) in a wireless communication system, and in particular, can be used in functions where the information required to perform the function is highly correlated with the geographic location. For example, for the NTN network, due to the periodic movement of the satellite equipment, the parameters required to perform a specific function in the same or similar geographic location are the same if the time can be matched.
- the embodiments of the present disclosure can also be used in the millimeter wave communication system of the TN network, because the information required to perform functions in the millimeter wave communication system is also strongly related to the geographic location.
- the user equipment may adopt multiple (for example, 168) m-sequence offsets at multiple (for example, 4) time-frequency positions in the process of performing this function.
- the combination attempts to decode SSS (Secondary Synchronization Signal) until the SSS is successfully decoded.
- the user equipment can determine the working mode (TDD or FDD) and CP configuration (normal CP or extended CP) of the cell according to the time-frequency position of the SSS, and can also obtain the cell group identity N according to the offset combination of the m sequence of the SSS.
- TDD Time Division Duplex
- CP configuration normal CP or extended CP
- the user equipment can generate GID information after performing the above functions, where the location information is the location where the user equipment generates the GID information, the time information includes the time when the user equipment generates the GID information, and the type information is synchronization Signal detection, data information includes the attribute "working mode", the value corresponding to the attribute "working mode”, the attribute "CP configuration”, the value corresponding to the attribute "CP configuration", the attribute "cell group identification”, and the attribute The value corresponding to the "cell group ID", etc.
- the GID information can be obtained, so that the GID information can be based on the attribute "working mode" corresponding to The value and the value corresponding to the attribute "CP configuration" directly determine the time-frequency position of the SSS, and the offset combination of the m sequence can be directly determined according to the value corresponding to the attribute "cell group identifier" in the GID information.
- the process of trying to decode the SSS using multiple offset combinations of m-sequences at multiple time-frequency positions is omitted, which greatly reduces the time for blind detection and speeds up the synchronization process.
- the user equipment can determine the beam angle information of the base station device through the measurement report or scheduling information (for example, including the horizontal and vertical direction information of the beam of the base station device in the process of performing the above function ).
- the user equipment can generate GID information after performing the above functions, where the location information is the location where the user equipment generates the GID information, the time information includes the time when the user equipment generates the GID information, and the type information is network Access, data information may include the attribute "beam angle" and a value corresponding to the attribute "beam angle".
- the user equipment needs to perform a large number of frequency scans to confirm the frequency point and Doppler shift value of the satellite equipment in the process of performing the above function, so as to access the satellite equipment.
- the user equipment can generate GID information after performing the above functions, where the location information is the location where the user equipment generates the GID information, the time information includes the time when the user equipment generates the GID information, and the type information is multiple
- the data information may include the attribute "Doppler frequency shift" and a value corresponding to the attribute "Doppler frequency shift".
- FIG. 17 is a schematic diagram illustrating a scenario in which GID information is used to avoid frequency interference according to an embodiment of the present disclosure.
- the TN network includes TN-gNB1 and TN-gNB2 and UE (for ease of illustration, Figure 17 shows only one UE), and the NTN network includes NTN-gNB2 and NTN-gNB3. All gNBs are Can be accessed with the data center. Assuming that NTN-gNB1 is a new satellite device, its appearance may cause interference to existing satellite devices (NTN-gNB2 and NTN-gNB3) around it.
- NTN-gNB1 needs to know the frequency usage of its nearby space.
- NTN-gNB1 can obtain frequency usage by measuring or exchanging information with nearby gNB, but because there may be a large number of NTN-gNB and TN-gNB around NTN-gNB1 in three-dimensional space, it needs to be implemented A large number of measurements and information exchange processes can obtain the frequency usage of all surrounding gNBs.
- NTN-gNB1 can request GID information from the data center, where the type information is frequency usage, so that the frequency usage of all gNBs around it can be easily obtained, which saves a lot of time and resources. Then, NTN-gNB1 can select a different spectrum from nearby gNB, or perform frequency planning with nearby gNB to eliminate interference.
- a GID can be constructed to record data or parameters generated during a certain function performed by a network element, so as to realize the sharing of GID information to assist other network elements to perform the same or similar functions.
- the technology of the present disclosure can be applied to various products.
- the network side device can be implemented as any type of TRP.
- the TRP may have sending and receiving functions, for example, it can receive information from user equipment and base station equipment, and can also send information to user equipment and base station equipment.
- TRP can provide services for user equipment and is controlled by base station equipment.
- the TRP may have a structure similar to that of the base station device described below, or may only have a structure related to the transmission and reception of information in the base station device.
- the network side equipment can also be implemented as any type of base station equipment, such as a macro eNB and a small eNB, and can also be implemented as any type of gNB (base station in a 5G system).
- a small eNB may be an eNB that covers a cell smaller than a macro cell, such as a pico eNB, a micro eNB, and a home (femto) eNB.
- the base station may be implemented as any other type of base station, such as NodeB and base transceiver station (BTS).
- the base station may include: a main body (also referred to as a base station device) configured to control wireless communication; and one or more remote radio heads (RRH) arranged in a different place from the main body.
- RRH remote radio heads
- the user equipment may be implemented as a mobile terminal (such as a smart phone, a tablet personal computer (PC), a notebook PC, a portable game terminal, a portable/dongle type mobile router, and a digital camera) or a vehicle-mounted terminal (such as a car navigation device).
- the user equipment may also be implemented as a terminal (also referred to as a machine type communication (MTC) terminal) that performs machine-to-machine (M2M) communication.
- MTC machine type communication
- M2M machine-to-machine
- the user equipment may be a wireless communication module (such as an integrated circuit module including a single chip) installed on each of the above-mentioned user equipment.
- FIG. 18 is a block diagram showing a first example of a schematic configuration of an eNB to which the technology of the present disclosure can be applied.
- the eNB 1800 includes one or more antennas 1810 and base station equipment 1820.
- the base station device 1820 and each antenna 1810 may be connected to each other via an RF cable.
- Each of the antennas 1810 includes a single or multiple antenna elements (such as multiple antenna elements included in a multiple input multiple output (MIMO) antenna), and is used for the base station device 1820 to transmit and receive wireless signals.
- the eNB 1800 may include multiple antennas 1810.
- multiple antennas 1810 may be compatible with multiple frequency bands used by eNB 1800.
- FIG. 18 shows an example in which the eNB 1800 includes multiple antennas 1810, the eNB 1800 may also include a single antenna 1810.
- the base station equipment 1820 includes a controller 1821, a memory 1822, a network interface 1823, and a wireless communication interface 1825.
- the controller 1821 may be, for example, a CPU or a DSP, and operates various functions of a higher layer of the base station device 1820. For example, the controller 1821 generates a data packet based on data in a signal processed by the wireless communication interface 1825, and transmits the generated packet via the network interface 1823. The controller 1821 may bundle data from a plurality of baseband processors to generate a bundled packet, and transfer the generated bundled packet. The controller 1821 may have a logic function to perform control such as radio resource control, radio bearer control, mobility management, admission control, and scheduling. This control can be performed in conjunction with nearby eNBs or core network nodes.
- the memory 1822 includes RAM and ROM, and stores programs executed by the controller 1821 and various types of control data (such as a terminal list, transmission power data, and scheduling data).
- the network interface 1823 is a communication interface for connecting the base station equipment 1820 to the core network 1824.
- the controller 1821 may communicate with the core network node or another eNB via the network interface 1823.
- the eNB 1800 and the core network node or other eNBs may be connected to each other through a logical interface (such as an S1 interface and an X2 interface).
- the network interface 1823 may also be a wired communication interface or a wireless communication interface for a wireless backhaul line. If the network interface 1823 is a wireless communication interface, the network interface 1823 can use a higher frequency band for wireless communication than the frequency band used by the wireless communication interface 1825.
- the wireless communication interface 1825 supports any cellular communication scheme, such as Long Term Evolution (LTE) and LTE-Advanced, and provides wireless connection to a terminal located in a cell of the eNB1800 via an antenna 1810.
- the wireless communication interface 1825 may generally include, for example, a baseband (BB) processor 1826 and an RF circuit 1827.
- the BB processor 1826 can perform, for example, encoding/decoding, modulation/demodulation, and multiplexing/demultiplexing, and perform layers (such as L1, medium access control (MAC), radio link control (RLC), and packet data convergence protocol (PDCP)) various types of signal processing.
- layers such as L1, medium access control (MAC), radio link control (RLC), and packet data convergence protocol (PDCP)
- the BB processor 1826 may have a part or all of the above-mentioned logical functions.
- the BB processor 1826 may be a memory storing a communication control program, or a module including a processor and related circuits configured to execute the program.
- the update program can change the function of the BB processor 1826.
- the module may be a card or a blade inserted into the slot of the base station device 1820. Alternatively, the module can also be a chip mounted on a card or blade.
- the RF circuit 1827 may include, for example, a mixer, a filter, and an amplifier, and transmit and receive wireless signals via the antenna 1810.
- the wireless communication interface 1825 may include a plurality of BB processors 1826.
- multiple BB processors 1826 may be compatible with multiple frequency bands used by eNB 1800.
- the wireless communication interface 1825 may include a plurality of RF circuits 1827.
- multiple RF circuits 1827 may be compatible with multiple antenna elements.
- FIG. 18 shows an example in which the wireless communication interface 1825 includes a plurality of BB processors 1826 and a plurality of RF circuits 1827, the wireless communication interface 1825 may also include a single BB processor 1826 or a single RF circuit 1827.
- FIG. 19 is a block diagram showing a second example of a schematic configuration of an eNB to which the technology of the present disclosure can be applied.
- the eNB 1930 includes one or more antennas 1940, base station equipment 1950, and RRH 1960.
- the RRH 1960 and each antenna 1940 may be connected to each other via an RF cable.
- the base station equipment 1950 and the RRH 1960 may be connected to each other via a high-speed line such as an optical fiber cable.
- Each of the antennas 1940 includes a single or multiple antenna elements (such as multiple antenna elements included in a MIMO antenna) and is used for RRH 1960 to transmit and receive wireless signals.
- the eNB 1930 may include multiple antennas 1940.
- multiple antennas 1940 may be compatible with multiple frequency bands used by eNB 1930.
- FIG. 19 shows an example in which the eNB 1930 includes multiple antennas 1940, the eNB 1930 may also include a single antenna 1940.
- the base station equipment 1950 includes a controller 1951, a memory 1952, a network interface 1953, a wireless communication interface 1955, and a connection interface 1957.
- the controller 1951, the memory 1952, and the network interface 1953 are the same as the controller 1821, the memory 1822, and the network interface 1823 described with reference to FIG. 19.
- the wireless communication interface 1955 supports any cellular communication scheme (such as LTE and LTE-Advanced), and provides wireless communication to a terminal located in a sector corresponding to the RRH 1960 via the RRH 1960 and the antenna 1940.
- the wireless communication interface 1955 may generally include, for example, a BB processor 1956.
- the BB processor 1956 is the same as the BB processor 1826 described with reference to FIG. 18 except that the BB processor 1956 is connected to the RF circuit 1964 of the RRH 1960 via the connection interface 1957.
- the wireless communication interface 1955 may include a plurality of BB processors 1956.
- multiple BB processors 1956 may be compatible with multiple frequency bands used by eNB 1930.
- FIG. 19 shows an example in which the wireless communication interface 1955 includes a plurality of BB processors 1956, the wireless communication interface 1955 may also include a single BB processor 1956.
- connection interface 1957 is an interface for connecting the base station equipment 1950 (wireless communication interface 1955) to the RRH 1960.
- the connection interface 1957 may also be a communication module for connecting the base station equipment 1950 (wireless communication interface 1955) to the communication in the above-mentioned high-speed line of the RRH 1960.
- RRH 1960 includes connection interface 1961 and wireless communication interface 1963.
- connection interface 1961 is an interface for connecting the RRH 1960 (wireless communication interface 1963) to the base station equipment 1950.
- the connection interface 1961 may also be a communication module used for communication in the above-mentioned high-speed line.
- the wireless communication interface 1963 transmits and receives wireless signals via the antenna 1940.
- the wireless communication interface 1963 may generally include an RF circuit 1964, for example.
- the RF circuit 1964 may include, for example, a mixer, a filter, and an amplifier, and transmits and receives wireless signals via the antenna 1940.
- the wireless communication interface 1963 may include a plurality of RF circuits 1964.
- multiple RF circuits 1964 can support multiple antenna elements.
- FIG. 19 shows an example in which the wireless communication interface 1963 includes a plurality of RF circuits 1964, the wireless communication interface 1963 may also include a single RF circuit 1964.
- the described response information generating unit 1320, determining unit 1330, and storage unit 1340 may be implemented by the controller 1821 and/or the controller 1951. At least part of the functions may also be implemented by the controller 1821 and the controller 1951.
- controller 1821 and/or the controller 1951 may execute the instructions stored in the corresponding memory to determine whether to store GID information that matches the function to be executed, store GID information, generate request information, execute the function, and generate GID. Information, generate response information, search for GID information and store GID information.
- FIG. 20 is a block diagram showing an example of a schematic configuration of a smart phone 2000 to which the technology of the present disclosure can be applied.
- the smart phone 2000 includes a processor 2001, a memory 2002, a storage device 2003, an external connection interface 2004, a camera device 2006, a sensor 2007, a microphone 2008, an input device 2009, a display device 2010, a speaker 2011, a wireless communication interface 2012, one or more Antenna switch 2015, one or more antennas 2016, bus 2017, battery 2018 and auxiliary controller 2019.
- the processor 2001 may be, for example, a CPU or a system on a chip (SoC), and controls the functions of the application layer and other layers of the smart phone 2000.
- the memory 2002 includes RAM and ROM, and stores data and programs executed by the processor 2001.
- the storage device 2003 may include a storage medium such as a semiconductor memory and a hard disk.
- the external connection interface 2004 is an interface for connecting an external device such as a memory card and a universal serial bus (USB) device to the smartphone 2000.
- USB universal serial bus
- the imaging device 2006 includes an image sensor such as a charge coupled device (CCD) and a complementary metal oxide semiconductor (CMOS), and generates a captured image.
- the sensor 2007 may include a group of sensors, such as a measurement sensor, a gyroscope sensor, a geomagnetic sensor, and an acceleration sensor.
- the microphone 2008 converts the sound input to the smart phone 2000 into an audio signal.
- the input device 2009 includes, for example, a touch sensor, a keypad, a keyboard, a button, or a switch configured to detect a touch on the screen of the display device 2010, and receives operations or information input from the user.
- the display device 2010 includes a screen such as a liquid crystal display (LCD) and an organic light emitting diode (OLED) display, and displays the output image of the smartphone 2000.
- the speaker 2011 converts the audio signal output from the smartphone 2000 into sound.
- the wireless communication interface 2012 supports any cellular communication scheme (such as LTE and LTE-Advanced), and performs wireless communication.
- the wireless communication interface 2012 may generally include, for example, a BB processor 2013 and an RF circuit 2014.
- the BB processor 2013 may perform, for example, encoding/decoding, modulation/demodulation, and multiplexing/demultiplexing, and perform various types of signal processing for wireless communication.
- the RF circuit 2014 may include, for example, a mixer, a filter, and an amplifier, and transmit and receive wireless signals via the antenna 2016.
- the wireless communication interface 2012 may be a chip module on which the BB processor 2013 and the RF circuit 2014 are integrated. As shown in FIG. 20, the wireless communication interface 2012 may include multiple BB processors 2013 and multiple RF circuits 2014.
- FIG. 20 shows an example in which the wireless communication interface 2012 includes a plurality of BB processors 2013 and a plurality of RF circuits 2014, the wireless communication interface 2012 may also include a single BB processor 2013 or a single RF circuit
- the wireless communication interface 2012 may support another type of wireless communication scheme, such as a short-range wireless communication scheme, a near field communication scheme, and a wireless local area network (LAN) scheme.
- the wireless communication interface 2012 may include a BB processor 2013 and an RF circuit 2014 for each wireless communication scheme.
- Each of the antenna switches 2015 switches the connection destination of the antenna 916 among a plurality of circuits included in the wireless communication interface 2012 (for example, circuits for different wireless communication schemes).
- Each of the antennas 2016 includes a single or multiple antenna elements (such as multiple antenna elements included in a MIMO antenna), and is used for the wireless communication interface 2012 to transmit and receive wireless signals.
- the smart phone 2000 may include multiple antennas 2016.
- FIG. 20 shows an example in which the smart phone 2000 includes a plurality of antennas 2016, the smart phone 2000 may also include a single antenna 2016.
- the smart phone 2000 may include an antenna 2016 for each wireless communication scheme.
- the antenna switch 2015 may be omitted from the configuration of the smart phone 2000.
- the bus 2017 connects the processor 2001, memory 2002, storage device 2003, external connection interface 2004, camera device 2006, sensor 2007, microphone 2008, input device 2009, display device 2010, speaker 2011, wireless communication interface 2012, and auxiliary controller 2019 to each other connection.
- the battery 2018 supplies power to each block of the smart phone 2000 shown in FIG. 21 via a feeder line, which is partially shown as a dashed line in the figure.
- the auxiliary controller 2019 operates the minimum necessary functions of the smartphone 2000 in the sleep mode, for example.
- the described response information generating unit 1220, determining unit 1230, and storage unit 1240 may be implemented by the processor 2001 or the auxiliary controller 2019. At least part of the functions may also be implemented by the processor 2001 or the auxiliary controller 2019.
- the processor 2001 or the auxiliary controller 2019 may execute the instructions stored in the memory 2002 or the storage device 2003 to determine whether the GID information matching the function to be executed is stored, store the GID information, generate request information, and execute the function. , Generate GID information, decide which network element to send request information to, generate response information and search for GID information.
- FIG. 21 is a block diagram showing an example of a schematic configuration of a car navigation device 2120 to which the technology of the present disclosure can be applied.
- the car navigation device 2120 includes a processor 2121, a memory 2122, a global positioning system (GPS) module 2124, a sensor 2125, a data interface 2126, a content player 2127, a storage medium interface 2128, an input device 2129, a display device 2130, a speaker 2131, a wireless A communication interface 2133, one or more antenna switches 2136, one or more antennas 2137, and a battery 2138.
- GPS global positioning system
- the processor 2121 may be, for example, a CPU or SoC, and controls the navigation function and other functions of the car navigation device 2120.
- the memory 2122 includes RAM and ROM, and stores data and programs executed by the processor 2121.
- the GPS module 2124 uses GPS signals received from GPS satellites to measure the position (such as latitude, longitude, and altitude) of the car navigation device 2120.
- the sensor 2125 may include a group of sensors, such as a gyroscope sensor, a geomagnetic sensor, and an air pressure sensor.
- the data interface 2126 is connected to, for example, an in-vehicle network 2141 via a terminal not shown, and acquires data (such as vehicle speed data) generated by the vehicle.
- the content player 2127 reproduces content stored in a storage medium (such as CD and DVD), which is inserted into the storage medium interface 2128.
- the input device 2129 includes, for example, a touch sensor, a button, or a switch configured to detect a touch on the screen of the display device 2130, and receives an operation or information input from the user.
- the display device 2130 includes a screen such as an LCD or an OLED display, and displays images of navigation functions or reproduced content.
- the speaker 2131 outputs the sound of the navigation function or the reproduced content.
- the wireless communication interface 2133 supports any cellular communication scheme such as LTE and LTE-Advanced, and performs wireless communication.
- the wireless communication interface 2133 may generally include, for example, a BB processor 2134 and an RF circuit 2135.
- the BB processor 2134 may perform, for example, encoding/decoding, modulation/demodulation, and multiplexing/demultiplexing, and perform various types of signal processing for wireless communication.
- the RF circuit 2135 may include, for example, a mixer, a filter, and an amplifier, and transmit and receive wireless signals via the antenna 2137.
- the wireless communication interface 2133 may also be a chip module on which the BB processor 2134 and the RF circuit 2135 are integrated. As shown in FIG.
- the wireless communication interface 2133 may include multiple BB processors 2134 and multiple RF circuits 2135.
- FIG. 21 shows an example in which the wireless communication interface 2133 includes a plurality of BB processors 2134 and a plurality of RF circuits 2135, the wireless communication interface 2133 may also include a single BB processor 2134 or a single RF circuit 2135.
- the wireless communication interface 2133 may support another type of wireless communication scheme, such as a short-range wireless communication scheme, a near field communication scheme, and a wireless LAN scheme.
- the wireless communication interface 2133 may include a BB processor 2134 and an RF circuit 2135.
- Each of the antenna switches 2136 switches the connection destination of the antenna 2137 among a plurality of circuits included in the wireless communication interface 2133, such as circuits for different wireless communication schemes.
- Each of the antennas 2137 includes a single or multiple antenna elements (such as multiple antenna elements included in a MIMO antenna), and is used for the wireless communication interface 2133 to transmit and receive wireless signals.
- the car navigation device 2120 may include multiple antennas 2137.
- FIG. 21 shows an example in which the car navigation device 2120 includes a plurality of antennas 2137, the car navigation device 2120 may also include a single antenna 2137.
- the car navigation device 2120 may include an antenna 2137 for each wireless communication scheme.
- the antenna switch 2136 may be omitted from the configuration of the car navigation device 2120.
- the battery 2138 supplies power to each block of the car navigation device 2120 shown in FIG. 21 via a feeder line, and the feeder line is partially shown as a dashed line in the figure.
- the battery 2138 accumulates power supplied from the vehicle.
- the described response information generating unit 1220, determining unit 1230, and storage unit 1240 may be implemented by the processor 2121. At least part of the functions may also be implemented by the processor 2121.
- the processor 2121 may execute the instructions stored in the memory 2122 to determine whether GID information matching the function to be executed is stored, store GID information, generate request information, execute the function, generate GID information, and decide which network to go to.
- the network element sends request information, generates response information, and searches for GID information.
- the technology of the present disclosure may also be implemented as an in-vehicle system (or vehicle) 2140 including one or more blocks in a car navigation device 2120, an in-vehicle network 2141, and a vehicle module 2142.
- vehicle module 2142 generates vehicle data (such as vehicle speed, engine speed, and failure information), and outputs the generated data to the vehicle network 2141.
- a plurality of functions included in one unit in the above embodiments may be realized by separate devices.
- the multiple functions implemented by multiple units in the above embodiments may be implemented by separate devices, respectively.
- one of the above functions can be implemented by multiple units. Needless to say, such a configuration is included in the technical scope of the present disclosure.
- the steps described in the flowchart include not only processing executed in time series in the stated order, but also processing executed in parallel or individually, not necessarily in time series. Furthermore, even in the steps processed in time series, needless to say, the order can be changed appropriately.
Landscapes
- Engineering & Computer Science (AREA)
- Databases & Information Systems (AREA)
- Theoretical Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Remote Sensing (AREA)
- Data Mining & Analysis (AREA)
- Physics & Mathematics (AREA)
- General Engineering & Computer Science (AREA)
- General Physics & Mathematics (AREA)
- Mobile Radio Communication Systems (AREA)
Abstract
The present disclosure relates to an electronic apparatus, a wireless communication method, and a computer readable storage medium. The electronic apparatus according to the present disclosure comprises a processing circuit, and is configured to: determine whether GID information matching a function to be executed has been stored; if not, generate request information used to request GID information matching the function; and send the request information to other apparatuses. The electronic apparatus, the wireless communication method, and the computer readable storage medium according to the present disclosure can be used to enable GID construction to record data or a parameter generated during a process of a network element executing a certain function, thereby achieving GID information sharing to assist other network elements in executing identical or similar functions.
Description
本申请要求于2019年7月31日提交中国专利局、申请号为201910701215.9、发明名称为“电子设备、无线通信方法和计算机可读存储介质”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。This application claims the priority of a Chinese patent application filed with the Chinese Patent Office, the application number is 201910701215.9, and the invention title is "electronic equipment, wireless communication methods and computer-readable storage media" on July 31, 2019, the entire content of which is incorporated by reference Incorporated in this application.
本公开的实施例总体上涉及无线通信领域,具体地涉及电子设备、无线通信方法和计算机可读存储介质。更具体地,本公开涉及一种作为无线通信系统中的网络侧设备的电子设备、一种作为无线通信系统中的用户设备的电子设备、一种作为无线通信系统中的数据中心的电子设备、一种由无线通信系统中的网络侧设备执行的无线通信方法、一种由无线通信系统中的用户设备执行的无线通信方法、一种由无线通信系统中的数据中心执行的无线通信方法以及一种计算机可读存储介质。The embodiments of the present disclosure generally relate to the field of wireless communication, and in particular to electronic devices, wireless communication methods, and computer-readable storage media. More specifically, the present disclosure relates to an electronic device as a network-side device in a wireless communication system, an electronic device as a user equipment in a wireless communication system, an electronic device as a data center in a wireless communication system, A wireless communication method performed by a network-side device in a wireless communication system, a wireless communication method performed by a user equipment in a wireless communication system, a wireless communication method performed by a data center in a wireless communication system, and a A computer-readable storage medium.
在无线通信系统中的网元执行完一定的功能后,会产生许多有用的信息,例如小区ID、频率信息和多普勒频移值等。然而,在网元执行完功能后这些信息通常被丢弃掉,但实际上它们可以被重复使用以使得通信更加高效。After the network elements in the wireless communication system perform certain functions, they will generate a lot of useful information, such as cell ID, frequency information, and Doppler shift value. However, this information is usually discarded after the network element performs the function, but in fact they can be reused to make the communication more efficient.
在包括NTN(Non-terrestrial network,非地面网络)的无线通信系统中,由于卫星的移动和通信延迟等原因很容易导致测量结果过时。因此,通过测量所获取的参数在包括NTN的无线通信系统中意义不大。此外,由于卫星运动的周期性,在包括NTN的无线通信系统中由网元执行一定的功能所需要的参数与地理位置具有很强的相关性。In wireless communication systems including NTN (Non-terrestrial network, non-terrestrial network), measurement results are easily outdated due to satellite movement and communication delays. Therefore, the parameters obtained through measurement are of little significance in wireless communication systems including NTN. In addition, due to the periodicity of satellite movement, the parameters required by the network element to perform certain functions in the wireless communication system including NTN have a strong correlation with the geographic location.
因此,有必要提出一种技术方案,以构建GID(Geographic Information Database,地理信息数据库)来记录在由网元执行一定的功能的过程中所生成的数据或参数,从而实现GID信息的共享,以协助其它网元执行相同或类似的功能。Therefore, it is necessary to propose a technical solution to build a GID (Geographic Information Database) to record the data or parameters generated in the process of performing certain functions by the network element, so as to realize the sharing of GID information. Assist other network elements to perform the same or similar functions.
发明内容Summary of the invention
这个部分提供了本公开的一般概要,而不是其全部范围或其全部特征的全面披露。This section provides a general summary of the disclosure, rather than a comprehensive disclosure of its full scope or all its features.
本公开的目的在于提供一种电子设备、无线通信方法和计算机可读存储介质,以构建GID来记录在由网元执行一定的功能的过程中所生成的数据或参数,从而实现GID信息的共享,以协助其它网元执行相同或类似的功能。The purpose of the present disclosure is to provide an electronic device, a wireless communication method and a computer-readable storage medium to construct a GID to record data or parameters generated in the process of performing certain functions by a network element, so as to realize the sharing of GID information , To assist other network elements to perform the same or similar functions.
根据本公开的一方面,提供了一种电子设备,包括处理电路,被配置为:确定是否存储了与将要执行的功能相匹配的地理信息数据库GID信息,所述GID信息包括与将要执行的功能相关联的数据;在没有存储与将要执行的功能相匹配的GID信息的情况下,生成用于请求与将要执行的功能相匹配的GID信息的请求信息;将所述请求信息发送至其它设备;以及根据请求的结果来执行所述将要执行的功能。。According to an aspect of the present disclosure, there is provided an electronic device, including a processing circuit, configured to determine whether a geographic information database GID information matching a function to be performed is stored, the GID information including a function to be performed Associated data; without storing GID information matching the function to be performed, generating request information for requesting GID information matching the function to be performed; sending the request information to other devices; And execute the function to be executed according to the result of the request. .
根据本公开的另一方面,提供了一种电子设备,包括处理电路,被配置为:从其它设备接收用于请求与所述其它设备将要执行的功能相匹配的地理信息数据库GID信息的请求信息;以及向所述其它设备发送包括与所述其它设备将要执行的功能相匹配的GID信息的响应信息以用于所述其它设备根据所述GID信息来执行所述将要执行的功能,其中,所述GID信息包括与将要执行的功能相关联的数据。According to another aspect of the present disclosure, there is provided an electronic device including a processing circuit configured to receive, from another device, request information for requesting GID information of a geographic information database matching a function to be performed by the other device And sending to the other device response information including GID information that matches the function to be performed by the other device for the other device to perform the function to be performed according to the GID information, wherein The GID information includes data associated with the function to be performed.
根据本公开的另一方面,提供了一种由电子设备执行的无线通信方法,包括:确定是否存储了与将要执行的功能相匹配的地理信息数据库GID信息,所述GID信息包括与将要执行的功能相关联的数据;在没有存储与将要执行的功能相匹配的GID信息的情况下,生成用于请求与将要执行的功能相匹配的GID信息的请求信息;将所述请求信息发送至其它设备;以及根据请求的结果来执行所述将要执行的功能。According to another aspect of the present disclosure, there is provided a wireless communication method executed by an electronic device, including: determining whether a geographic information database GID information matching the function to be executed is stored, the GID information including Function-related data; in the case where GID information matching the function to be executed is not stored, request information for requesting GID information matching the function to be executed is generated; and the request information is sent to other devices ; And execute the function to be executed according to the result of the request.
根据本公开的另一方面,提供了一种由电子设备执行的无线通信方法,包括:从其它设备接收用于请求与所述其它设备将要执行的功能相匹配的地理信息数据库GID信息的请求信息;以及向所述其它设备发送包括与所述其它设备将要执行的功能相匹配的GID信息的响应信息以用于所述其它设备根据所述GID信息来执行所述将要执行的功能,其中,所述GID信息包括与将要执行的功能相关联的数据。According to another aspect of the present disclosure, there is provided a wireless communication method performed by an electronic device, including: receiving request information from another device for requesting GID information of a geographic information database matching a function to be performed by the other device And sending to the other device response information including GID information that matches the function to be performed by the other device for the other device to perform the function to be performed according to the GID information, wherein The GID information includes data associated with the function to be performed.
根据本公开的另一方面,提供了一种计算机可读存储介质,包括可 执行计算机指令,所述可执行计算机指令当被计算机执行时使得所述计算机执行根据本公开所述的无线通信方法。According to another aspect of the present disclosure, there is provided a computer-readable storage medium including executable computer instructions that, when executed by a computer, cause the computer to execute the wireless communication method according to the present disclosure.
使用根据本公开的电子设备、无线通信方法和计算机可读存储介质,电子设备可以在确定没有存储与将要执行的功能相匹配的GID信息的情况下,向其它设备请求与将要执行的功能相匹配的GID信息。这里,GID信息包括其它电子设备在执行这样的功能的过程中生成的数据。这样一来,电子设备可以与其它设备共享GID信息,从而可以更加快速高效地执行功能。Using the electronic device, the wireless communication method, and the computer-readable storage medium according to the present disclosure, the electronic device can request other devices to match the function to be performed when determining that GID information matching the function to be performed is not stored GID information. Here, the GID information includes data generated by other electronic devices in the process of performing such functions. In this way, the electronic device can share GID information with other devices, so that functions can be performed more quickly and efficiently.
从在此提供的描述中,进一步的适用性区域将会变得明显。这个概要中的描述和特定例子只是为了示意的目的,而不旨在限制本公开的范围。From the description provided here, further areas of applicability will become apparent. The description and specific examples in this summary are for illustrative purposes only, and are not intended to limit the scope of the present disclosure.
在此描述的附图只是为了所选实施例的示意的目的而非全部可能的实施,并且不旨在限制本公开的范围。在附图中:The drawings described herein are for illustrative purposes of selected embodiments and not all possible implementations, and are not intended to limit the scope of the present disclosure. In the attached picture:
图1是示出根据本公开的实施例的网络架构的示意图;FIG. 1 is a schematic diagram showing a network architecture according to an embodiment of the present disclosure;
图2是示出根据本公开的实施例的无线通信系统中的网元的示意图;Fig. 2 is a schematic diagram showing a network element in a wireless communication system according to an embodiment of the present disclosure;
图3是示出根据本公开的实施例的用作用户设备的电子设备的配置的示例的框图;3 is a block diagram showing an example of the configuration of an electronic device serving as a user equipment according to an embodiment of the present disclosure;
图4是示出根据本公开的实施例的GID信息的组成的示意图;4 is a schematic diagram showing the composition of GID information according to an embodiment of the present disclosure;
图5示出了根据本公开的实施例的GID信息的示例;FIG. 5 shows an example of GID information according to an embodiment of the present disclosure;
图6是示出根据本公开的实施例的用作网络侧设备的电子设备的配置的示例的框图;6 is a block diagram showing an example of the configuration of an electronic device serving as a network-side device according to an embodiment of the present disclosure;
图7是示出根据本公开的实施例的基于GID信息执行功能的过程的信令流程图;FIG. 7 is a signaling flowchart showing a process of performing functions based on GID information according to an embodiment of the present disclosure;
图8是示出根据本公开的实施例的基于GID信息执行功能的过程的信令流程图;FIG. 8 is a signaling flowchart showing a process of performing functions based on GID information according to an embodiment of the present disclosure;
图9是示出根据本公开的实施例的基于GID信息执行功能的过程的信令流程图;FIG. 9 is a signaling flowchart showing a process of performing functions based on GID information according to an embodiment of the present disclosure;
图10是示出根据本公开的实施例的由UE(User Equipment,用户设 备)基于GID信息执行功能的过程的流程图;Fig. 10 is a flowchart showing a process of performing a function based on GID information by a UE (User Equipment) according to an embodiment of the present disclosure;
图11是示出根据本公开的实施例的基于GID信息执行功能的过程的信令流程图;FIG. 11 is a signaling flowchart showing a process of performing a function based on GID information according to an embodiment of the present disclosure;
图12是示出根据本公开的实施例的用作用户设备的电子设备的配置的示例的框图;12 is a block diagram showing an example of the configuration of an electronic device serving as a user equipment according to an embodiment of the present disclosure;
图13是示出根据本公开的实施例的用作网络侧设备的电子设备的配置的示例的框图;FIG. 13 is a block diagram showing an example of the configuration of an electronic device serving as a network side device according to an embodiment of the present disclosure;
图14是示出根据本公开的实施例的用作数据中心的电子设备的配置的示例的框图;14 is a block diagram showing an example of the configuration of an electronic device used as a data center according to an embodiment of the present disclosure;
图15是示出根据本公开的实施例的由电子设备执行的无线通信方法的流程图;15 is a flowchart showing a wireless communication method performed by an electronic device according to an embodiment of the present disclosure;
图16是示出根据本公开的另一个实施例的由电子设备执行的无线通信方法的流程图;FIG. 16 is a flowchart showing a wireless communication method performed by an electronic device according to another embodiment of the present disclosure;
图17是示出根据本公开的实施例的利用GID信息避免频率干扰的场景的示意图;FIG. 17 is a schematic diagram showing a scenario in which GID information is used to avoid frequency interference according to an embodiment of the present disclosure;
图18是示出eNB(Evolved Node B,演进型节点B)的示意性配置的第一示例的框图;18 is a block diagram showing a first example of a schematic configuration of an eNB (Evolved Node B);
图19是示出eNB的示意性配置的第二示例的框图;FIG. 19 is a block diagram showing a second example of the schematic configuration of an eNB;
图20是示出智能电话的示意性配置的示例的框图;以及FIG. 20 is a block diagram showing an example of a schematic configuration of a smart phone; and
图21是示出汽车导航设备的示意性配置的示例的框图。FIG. 21 is a block diagram showing an example of a schematic configuration of a car navigation device.
虽然本公开容易经受各种修改和替换形式,但是其特定实施例已作为例子在附图中示出,并且在此详细描述。然而应当理解的是,在此对特定实施例的描述并不打算将本公开限制到公开的具体形式,而是相反地,本公开目的是要覆盖落在本公开的精神和范围之内的所有修改、等效和替换。要注意的是,贯穿几个附图,相应的标号指示相应的部件。Although the present disclosure is susceptible to various modifications and alternative forms, specific embodiments thereof have been shown in the drawings as examples and described in detail herein. However, it should be understood that the description of specific embodiments herein is not intended to limit the present disclosure to the specific forms disclosed, but on the contrary, the purpose of the present disclosure is to cover all that fall within the spirit and scope of the present disclosure. Modification, equivalent and replacement. It should be noted that throughout the several drawings, corresponding reference numerals indicate corresponding components.
现在参考附图来更加充分地描述本公开的例子。以下描述实质上只是示例性的,而不旨在限制本公开、应用或用途。The examples of the present disclosure will now be described more fully with reference to the accompanying drawings. The following description is merely exemplary in nature, and is not intended to limit the present disclosure, application, or use.
提供了示例实施例,以便本公开将会变得详尽,并且将会向本领域 技术人员充分地传达其范围。阐述了众多的特定细节如特定部件、装置和方法的例子,以提供对本公开的实施例的详尽理解。对于本领域技术人员而言将会明显的是,不需要使用特定的细节,示例实施例可以用许多不同的形式来实施,它们都不应当被解释为限制本公开的范围。在某些示例实施例中,没有详细地描述众所周知的过程、众所周知的结构和众所周知的技术。Example embodiments are provided so that this disclosure will be thorough and will fully convey its scope to those skilled in the art. Numerous specific details such as examples of specific components, devices, and methods are described to provide a detailed understanding of the embodiments of the present disclosure. It will be obvious to those skilled in the art that no specific details need to be used, and the example embodiments can be implemented in many different forms, and none of them should be construed as limiting the scope of the present disclosure. In some example embodiments, well-known processes, well-known structures, and well-known technologies are not described in detail.
将按照以下顺序进行描述:The description will be in the following order:
1.网络结构的描述;1. Description of network structure;
2.发送请求信息的电子设备的配置示例;2. The configuration example of the electronic device that sends the requested information;
3.接收请求信息的电子设备的配置示例;3. The configuration example of the electronic device that receives the requested information;
4.方法实施例;4. Method embodiment;
5.应用示例。5. Application examples.
<1.网络结构的描述><1. Description of network structure>
图1是示出根据本公开的实施例的网络架构的示意图。如图1所示,无线通信系统包括一个或多个例如gNB(第5代通信系统中的基站)的网络侧设备,每个网络侧设备为一个或多个UE提供服务。根据本公开的实施例的无线通信系统还包括一个或多个DC(Data Center,数据中心),DC能够被例如gNB的网络侧设备访问。进一步,DC之间可以具备接口,以在各个DC之间共享信息。FIG. 1 is a schematic diagram showing a network architecture according to an embodiment of the present disclosure. As shown in FIG. 1, the wireless communication system includes one or more network side devices such as gNB (base station in the 5th generation communication system), and each network side device provides services for one or more UEs. The wireless communication system according to the embodiment of the present disclosure further includes one or more DC (Data Center, data center), and the DC can be accessed by a network side device such as a gNB. Furthermore, there may be interfaces between DCs to share information between each DC.
根据本公开的实施例,UE、网络侧设备和DC都可以生成GID信息。进一步,UE、网络侧设备和DC可以分别构建GID以存储各自生成的GID信息。此外,DC可以存储UE和网络侧设备生成的GID信息,并且各个DC之间可以共享其存储的GID信息。这样一来,可以在各个网元之间实现GID信息的共享,即整个无线通信系统中的各个网元可以在需要时获取其它网元中存储的GID信息。According to the embodiments of the present disclosure, the UE, the network side device, and the DC can all generate GID information. Further, the UE, the network side device, and the DC may separately construct GIDs to store the GID information generated by each. In addition, the DC can store the GID information generated by the UE and the network-side device, and each DC can share the stored GID information. In this way, GID information can be shared among various network elements, that is, each network element in the entire wireless communication system can obtain GID information stored in other network elements when needed.
根据本公开的无线通信系统可以是5G(第5代)或6G(第6代)通信系统。优选地,根据本公开的无线通信系统可以包括NTN(Non-terrestrial network,非地面网络)和TN(Terrestrial network,地面网络)。The wireless communication system according to the present disclosure may be a 5G (5th generation) or 6G (6th generation) communication system. Preferably, the wireless communication system according to the present disclosure may include NTN (Non-terrestrial network, non-terrestrial network) and TN (Terrestrial network, terrestrial network).
根据本公开的DC可以是任何类型的可被访问的电子设备。例如,DC可以是部署在核心网上的电子设备,包括NTN-DC和TN-DC。由此, NTN中的网络侧设备可以访问NTN-DC,而TN中的网络侧设备可以访问TN-DC。The DC according to the present disclosure may be any type of electronic device that can be accessed. For example, the DC may be electronic equipment deployed on the core network, including NTN-DC and TN-DC. Thus, the network-side equipment in NTN can access NTN-DC, and the network-side equipment in TN can access TN-DC.
根据本公开的网络侧设备可以是任何类型的TRP(Transmit and Receive Port,发送和接收端口),也可以是基站设备,例如可以是eNB,也可以是gNB。进一步,网络侧设备可以是TN的基站设备,也可以是NTN的基站设备。当网络侧设备是TN的基站设备时,该网络侧设备可以位于地面上。当网络侧设备是NTN的基站设备时,该网络侧设备可以位于卫星设备上。例如,卫星设备可以包括GEO(Geosynchronous Orbit,地球同步轨道)卫星设备、LEO(Low Earth Orbit,近地球轨道)卫星设备、MEO(Medium Earth Orbit,中地球轨道)卫星设备、HEO(Highly Elliptical Orbiting,高椭圆轨道)卫星设备和HAPS(High Altitude Platform Station,高空平台)。The network side device according to the present disclosure may be any type of TRP (Transmit and Receive Port), and may also be a base station device, for example, an eNB or a gNB. Further, the network side equipment may be a TN base station equipment or an NTN base station equipment. When the network side device is a TN base station device, the network side device may be located on the ground. When the network side device is a base station device of NTN, the network side device may be located on the satellite device. For example, satellite equipment may include GEO (Geosynchronous Orbit, geosynchronous orbit) satellite equipment, LEO (Low Earth Orbit, near earth orbit) satellite equipment, MEO (Medium Earth Orbit, medium earth orbit) satellite equipment, HEO (Highly Elliptical Orbiting, High elliptical orbit) satellite equipment and HAPS (High Altitude Platform Station, high altitude platform).
此外,对于NTN中的基站设备,其可以是透明的基站设备,即只具备接收信息和发送信息的功能,不具备数据处理的能力,当透明的基站设备接收到信息时,必须转发到具备数据处理能力的其它设备(例如位于地面上的处理设备)进行数据处理。NTN中的基站设备也可以是非透明的基站设备,即具备数据处理的能力。In addition, for the base station equipment in NTN, it can be a transparent base station equipment, that is, it only has the function of receiving and sending information, and does not have the ability to process data. When the transparent base station equipment receives the information, it must be forwarded to the Other equipment with processing capabilities (for example, processing equipment located on the ground) performs data processing. The base station equipment in the NTN can also be a non-transparent base station equipment, that is, it has the capability of data processing.
根据本公开的用户设备可以是移动终端(诸如智能电话、平板个人计算机(PC)、笔记本式PC、便携式游戏终端、便携式/加密狗型移动路由器和数字摄像装置)或者车载终端(诸如汽车导航设备)。用户设备还可以被实现为执行机器对机器(M2M)通信的终端(也称为机器类型通信(MTC)终端)。此外,用户设备可以为安装在上述终端中的每个终端上的无线通信模块(诸如包括单个晶片的集成电路模块)。The user equipment according to the present disclosure may be a mobile terminal (such as a smart phone, a tablet personal computer (PC), a notebook PC, a portable game terminal, a portable/dongle type mobile router, and a digital camera) or a vehicle-mounted terminal (such as a car navigation device) ). The user equipment may also be implemented as a terminal (also referred to as a machine type communication (MTC) terminal) that performs machine-to-machine (M2M) communication. In addition, the user equipment may be a wireless communication module (such as an integrated circuit module including a single chip) installed on each of the aforementioned terminals.
图2是示出根据本公开的实施例的无线通信系统中的网元的示意图。在图2中,示出了UE、网络侧设备和DC三种网元。图2示出了两个UE:UE1和UE2。进一步,图2以gNB为例示出了作为网络侧设备的网元,gNB可以包括TN-gNB和NTN-gNB,这里TN-gNB是位于地面上的基站设备,而NTN-gNB可以是位于卫星设备上的基站设备。此外,NTN-gNB还可以包括透明NTN-gNB和非透明NTN-gNB。图2还示出了DC,包括NTN-DC和TN-DC。Fig. 2 is a schematic diagram showing network elements in a wireless communication system according to an embodiment of the present disclosure. In Figure 2, three network elements, UE, network side equipment and DC are shown. Figure 2 shows two UEs: UE1 and UE2. Further, Figure 2 shows a network element as a network-side device using gNB as an example. gNB can include TN-gNB and NTN-gNB, where TN-gNB is a base station device located on the ground, and NTN-gNB can be a satellite device Base station equipment. In addition, NTN-gNB may also include transparent NTN-gNB and non-transparent NTN-gNB. Figure 2 also shows DC, including NTN-DC and TN-DC.
根据本公开的实施例,在各个网元之间可以交互GID信息。例如,图2中的标号①示出了UE之间交互GID信息的过程,这里,UE之间可以通过D2D(Device to Device,设备到设备)通信来实现这个过程。图2 中的标号②示出了UE向非透明NTN-gNB请求GID信息的过程。图2中的标号③示出了UE向透明NTN-gNB请求GID信息的过程。图2中的标号④示出了非透明NTN-gNB向NTN-DC请求GID信息的过程。图2中的标号⑤示出了UE向TN-gNB请求GID信息的过程。图2中的标号⑥示出了TN-gNB向TN-DC请求GID信息的过程。这些过程将在下文中详细描述。According to the embodiments of the present disclosure, GID information can be exchanged between various network elements. For example, the number ① in FIG. 2 shows the process of exchanging GID information between UEs. Here, the UEs can implement this process through D2D (Device to Device) communication. The label ② in Fig. 2 shows the process in which the UE requests GID information from the non-transparent NTN-gNB. The number ③ in Fig. 2 shows the process of the UE requesting GID information from the transparent NTN-gNB. The label ④ in Figure 2 shows the process of non-transparent NTN-gNB requesting GID information from NTN-DC. The symbol ⑤ in Fig. 2 shows the process of the UE requesting GID information from the TN-gNB. The label ⑥ in Figure 2 shows the process of TN-gNB requesting GID information from TN-DC. These processes will be described in detail below.
本公开期望基于上述网络结构提出一种无线通信系统中的电子设备、由无线通信系统中的电子设备执行的无线通信方法以及计算机可读存储介质,以构建GID来记录在由网元执行一定的功能的过程中所生成的数据或参数,从而实现GID信息的共享,以协助其它网元执行相同或类似的功能。The present disclosure expects to propose an electronic device in a wireless communication system, a wireless communication method executed by an electronic device in a wireless communication system, and a computer-readable storage medium based on the above-mentioned network structure, so as to construct a GID to be recorded in a network element to execute a certain The data or parameters generated during the function process can realize the sharing of GID information to assist other network elements to perform the same or similar functions.
<2.发送请求信息的电子设备的配置示例><2. Configuration example of electronic equipment that sends request information>
下面将详细描述发送用于请求GID信息的请求信息的电子设备。由图2可以看出,UE可以向其它UE或者网络侧设备请求GID信息,而网络侧设备可以向其能够访问的DC请求GID信息。因此,根据本公开的发送用于请求GID信息的请求信息的电子设备可以是UE,也可以是网络侧设备。下面将分别描述这样的UE和网络侧设备。The electronic device that transmits request information for requesting GID information will be described in detail below. It can be seen from Figure 2 that the UE can request GID information from other UEs or network-side devices, and the network-side device can request GID information from the DC that it can access. Therefore, the electronic device that sends request information for requesting GID information according to the present disclosure may be a UE or a network side device. The following describes such UE and network side equipment respectively.
图3是示出根据本公开的实施例的电子设备300的配置的示例的框图。这里的电子设备300可以是发送用于请求GID信息的请求信息的用户设备。FIG. 3 is a block diagram showing an example of the configuration of an electronic device 300 according to an embodiment of the present disclosure. The electronic device 300 here may be a user device that sends request information for requesting GID information.
如图3所示,电子设备300可以包括确定单元310、存储单元320、请求生成单元330、通信单元340和处理单元350。As shown in FIG. 3, the electronic device 300 may include a determination unit 310, a storage unit 320, a request generation unit 330, a communication unit 340, and a processing unit 350.
这里,电子设备300的各个单元都可以包括在处理电路中。需要说明的是,电子设备300既可以包括一个处理电路,也可以包括多个处理电路。进一步,处理电路可以包括各种分立的功能单元以执行各种不同的功能和/或操作。需要说明的是,这些功能单元可以是物理网元或逻辑网元,并且不同称谓的单元可能由同一个物理网元实现。Here, each unit of the electronic device 300 may be included in the processing circuit. It should be noted that the electronic device 300 may include one processing circuit or multiple processing circuits. Further, the processing circuit may include various discrete functional units to perform various different functions and/or operations. It should be noted that these functional units may be physical network elements or logical network elements, and units with different titles may be implemented by the same physical network element.
根据本公开的实施例,确定单元310可以确定是否存储了与将要执行的功能相匹配的GID信息,GID信息包括与将要执行的功能相关联的数据。According to an embodiment of the present disclosure, the determining unit 310 may determine whether GID information matching the function to be executed is stored, and the GID information includes data associated with the function to be executed.
根据本公开的实施例,将要执行的功能可以是电子设备300在无线通信的各个过程中期望实现的通信功能,包括但不限于网络接入、多普勒 频移补偿、同步信号检测。例如,在电子设备300接入网络之前,确定单元310可以确定是否存储了与网络接入这个功能相匹配的GID信息。又如,在电子设备300进行多普勒频移补偿之前,确定单元310可以确定是否存储了与多普勒频谱补偿相匹配的GID信息。According to the embodiments of the present disclosure, the function to be performed may be a communication function expected by the electronic device 300 in various processes of wireless communication, including but not limited to network access, Doppler shift compensation, and synchronization signal detection. For example, before the electronic device 300 accesses the network, the determining unit 310 may determine whether the GID information matching the network access function is stored. For another example, before the electronic device 300 performs Doppler shift compensation, the determining unit 310 may determine whether the GID information matching the Doppler spectrum compensation is stored.
根据本公开的实施例,存储单元320可以用于存储GID信息。这里,GID信息包括电子设备300自身生成的GID信息,也可以包括电子设备300从其它设备获取的GID信息。例如,存储单元320存储的所有GID信息相当于构建了GID。根据本公开的实施例,确定单元310可以确定存储单元320中是否存储了与将要执行的功能相匹配的GID信息。According to an embodiment of the present disclosure, the storage unit 320 may be used to store GID information. Here, the GID information includes GID information generated by the electronic device 300 itself, and may also include GID information obtained by the electronic device 300 from other devices. For example, all GID information stored in the storage unit 320 is equivalent to constructing a GID. According to an embodiment of the present disclosure, the determining unit 310 may determine whether the GID information matching the function to be executed is stored in the storage unit 320.
根据本公开的实施例,在确定单元310确定存储单元320中没有存储与将要执行的功能相匹配的GID信息的情况下,请求生成单元330可以生成用于请求与将要执行的功能相匹配的GID信息的请求信息。According to an embodiment of the present disclosure, in a case where the determining unit 310 determines that GID information matching the function to be executed is not stored in the storage unit 320, the request generating unit 330 may generate a GID for requesting matching with the function to be executed Information request information.
根据本公开的实施例,电子设备300可以通过通信单元340将请求生成单元330生成的请求信息发送至其它设备。According to an embodiment of the present disclosure, the electronic device 300 may transmit the request information generated by the request generating unit 330 to other devices through the communication unit 340.
根据本公开的实施例,处理单元350用于根据请求的结果来执行将要执行的功能。根据本公开的实施例,请求的结果可以包括是否从其它设备接收到包括与将要执行的功能相匹配的GID信息的响应信息。进一步,在从其它设备接收到包括与将要执行的功能相匹配的GID信息的响应信息的情况下,请求的结果还可以包括接收到的与将要执行的功能相匹配的GID信息。According to an embodiment of the present disclosure, the processing unit 350 is used to execute a function to be executed according to the result of the request. According to an embodiment of the present disclosure, the result of the request may include whether response information including GID information matching the function to be executed is received from other devices. Further, in the case of receiving response information including GID information matching the function to be executed from another device, the result of the request may also include the received GID information matching the function to be executed.
如上所述,电子设备300可以在确定没有存储与将要执行的功能相匹配的GID信息的情况下,向其它设备请求与将要执行的功能相匹配的GID信息。这里,GID信息包括其它电子设备在执行这样的功能的过程中生成的数据。这样一来,电子设备可以与其它设备共享GID信息,从而可以更加快速高效地执行功能。As described above, the electronic device 300 may request GID information matching the function to be performed from other devices in the case where it is determined that no GID information matching the function to be performed is stored. Here, the GID information includes data generated by other electronic devices in the process of performing such functions. In this way, the electronic device can share GID information with other devices, so that functions can be performed more quickly and efficiently.
根据本公开的实施例,存储单元320中存储的GID信息包括位置信息、时间信息、类型信息和数据信息。进一步,位置信息包括生成GID信息的位置,时间信息包括生成GID信息的时间,类型信息包括GID信息针对的功能的类型,数据信息包括执行该功能的过程中生成的数据。According to an embodiment of the present disclosure, the GID information stored in the storage unit 320 includes location information, time information, type information, and data information. Further, the location information includes the location where the GID information is generated, the time information includes the time when the GID information is generated, the type information includes the type of the function targeted by the GID information, and the data information includes data generated during the execution of the function.
图4是示出根据本公开的实施例的GID信息的组成的示意图。如图4所示,GID信息包括位置信息和内容。其中,内容包括类型信息、时间信息和数据信息。进一步,图4示出了N条GID信息的示例,每一条GID 信息都可以包括位置信息、时间信息、类型信息和数据信息。FIG. 4 is a schematic diagram showing the composition of GID information according to an embodiment of the present disclosure. As shown in Figure 4, GID information includes location information and content. Among them, the content includes type information, time information and data information. Further, FIG. 4 shows an example of N pieces of GID information, and each piece of GID information may include location information, time information, type information, and data information.
根据本公开的实施例,在确定单元310确定存储单元320中是否存储了与将要执行的功能相匹配的GID信息的过程中,只有在GID信息中包括的位置信息与电子设备300的当前位置相匹配、GID信息中包括的时间信息与当前时间相匹配,并且GID信息中包括的类型信息与将要执行的功能的类型相匹配的情况下,确定单元310才能够确定这样的GID信息与将要执行的功能相匹配。According to an embodiment of the present disclosure, in the process that the determining unit 310 determines whether the GID information matching the function to be executed is stored in the storage unit 320, only the location information included in the GID information corresponds to the current location of the electronic device 300. When the time information included in the GID information matches the current time, and the type information included in the GID information matches the type of the function to be executed, the determining unit 310 can determine that such GID information matches the current time. Function matches.
例如,假定图4中示出的位置1与电子设备300的当前位置相匹配,时间1与当前时间相匹配,并且类型1与将要执行的功能的类型相匹配,则确定单元310可以确定图4中的第一条GID信息与电子设备300将要执行的功能相匹配。For example, assuming that location 1 shown in FIG. 4 matches the current location of the electronic device 300, time 1 matches the current time, and type 1 matches the type of function to be performed, the determining unit 310 may determine FIG. 4 The first piece of GID information in is matched with the function to be performed by the electronic device 300.
根据本公开的实施例,在生成GID信息的位置与电子设备300的当前位置的距离小于距离阈值的情况下,确定单元310可以确定该GID信息中包括的位置信息与电子设备300的当前位置相匹配。According to an embodiment of the present disclosure, in a case where the distance between the location where the GID information is generated and the current location of the electronic device 300 is less than the distance threshold, the determining unit 310 may determine that the location information included in the GID information corresponds to the current location of the electronic device 300. match.
根据本公开的实施例,电子设备300可以具备诸如GPS的定位功能,从而可以确定电子设备300的当前位置。进一步,确定单元310可以根据GID信息中包括的位置信息确定生成该条GID信息的位置,从而确定生成GID信息的位置与电子设备300的当前位置之间的距离,并判定是否小于距离阈值。According to an embodiment of the present disclosure, the electronic device 300 may have a positioning function such as GPS, so that the current location of the electronic device 300 may be determined. Further, the determining unit 310 may determine the location where the piece of GID information is generated according to the location information included in the GID information, thereby determining the distance between the location where the GID information is generated and the current location of the electronic device 300, and determining whether it is less than the distance threshold.
根据本公开的实施例,确定单元310可以根据将要执行的功能的类型确定距离阈值。也就是说,对于对距离精度要求比较高的功能,距离阈值可以设置的较小,而对于距离精度要求比较低的功能,距离阈值可以设置的较大。也就是说,针对一个功能,假定在位置A和位置B执行这个功能所生成的数据较为相同,而位置A和位置B相距较远,说明该功能对距离精度要求比较低,可以将针对该功能的距离阈值设置的大一些。又如,针对另一个功能,在相距很近的两个位置处执行该功能所生成的数据都不相同,则说明该功能对距离精度要求比较高,可以将针对该功能的距离阈值设置的小一些。According to an embodiment of the present disclosure, the determining unit 310 may determine the distance threshold according to the type of function to be performed. In other words, for functions that require relatively high distance accuracy, the distance threshold can be set smaller, and for functions that require relatively low distance accuracy, the distance threshold can be set larger. In other words, for a function, it is assumed that the data generated by executing this function at position A and position B are relatively the same, and position A and position B are far apart, indicating that the function requires relatively low distance accuracy. The distance threshold is set larger. For another example, for another function, the data generated by executing the function at two locations that are very close to each other are not the same, indicating that the function requires a relatively high distance accuracy, and the distance threshold for this function can be set to a small value. some.
由此可见,根据本公开的实施例,可以根据要执行的功能类型来确定距离阈值,从而可以更加准确地将GID信息与将要执行的功能相匹配。这样一来,电子设备300才能够直接使用匹配的GID信息执行将要执行的功能。It can be seen that, according to the embodiments of the present disclosure, the distance threshold can be determined according to the type of function to be performed, so that the GID information can be more accurately matched with the function to be performed. In this way, the electronic device 300 can directly use the matched GID information to perform the function to be executed.
根据本公开的实施例,GID信息中包括的时间信息除了包括生成GID信息的时间,还可以包括该GID信息针对的目标设备的运行周期。这里,GID信息针对的目标设备可以包括卫星设备,从而GID信息中的时间信息包括该卫星设备的运行周期。According to an embodiment of the present disclosure, the time information included in the GID information may include not only the time when the GID information is generated, but also the operation period of the target device for which the GID information is targeted. Here, the target device targeted by the GID information may include a satellite device, so the time information in the GID information includes the operating period of the satellite device.
根据本公开的实施例,在生成GID信息的时间与当前时间的差值为运行周期的整数倍的情况下,确定单元310可以确定GID信息中包括的时间信息与当前时间相匹配。According to an embodiment of the present disclosure, in a case where the difference between the time when the GID information is generated and the current time is an integer multiple of the operating period, the determining unit 310 may determine that the time information included in the GID information matches the current time.
这里,确定单元310可以根据GID信息中包括的时间信息获取生成GID信息的时间和运行周期,从而确定生成GID信息的时间与当前时间的差值是否为运行周期的整数倍。Here, the determining unit 310 may obtain the time and operating period for generating the GID information according to the time information included in the GID information, so as to determine whether the difference between the time for generating the GID information and the current time is an integer multiple of the operating period.
根据本公开的实施例,在GID信息针对的功能的类型与将要执行的功能的类型相同的情况下,确定单元310可以确定GID信息中包括的类型信息与将要执行的功能的类型相匹配。According to an embodiment of the present disclosure, in a case where the type of the function targeted by the GID information is the same as the type of the function to be executed, the determining unit 310 may determine that the type information included in the GID information matches the type of the function to be executed.
如上所述,根据本公开的实施例,确定单元310在确定存储单元320中存储的GID信息中的位置信息与当前位置相匹配、时间信息与当前时间相匹配并且类型信息与将要执行的功能的类型相匹配的情况下,才能够确定该GID信息与将要执行的功能相匹配。换句话说,在位置信息、时间信息和类型信息都匹配的情况下,说明在时间T以前、在当前位置处或者当前位置附近存在网元执行了与电子设备300将要执行的功能的类型相同的功能。这里,T表示运行周期的整数倍,网元可以是电子设备300本身,也可以是除了电子设备300以外的电子设备。在这种情况下,电子设备300可以利用这样的GID信息。As described above, according to the embodiment of the present disclosure, the determining unit 310 determines that the location information of the GID information stored in the determining storage unit 320 matches the current location, the time information matches the current time, and the type information matches the function to be executed. Only when the types match, can it be determined that the GID information matches the function to be performed. In other words, when the location information, time information, and type information all match, it means that there is a network element that performs the same type of function as the function to be performed by the electronic device 300 before time T, at or near the current location. Features. Here, T represents an integer multiple of the operating cycle, and the network element may be the electronic device 300 itself, or an electronic device other than the electronic device 300. In this case, the electronic device 300 can utilize such GID information.
根据本公开的实施例,在确定单元310确定存储单元320中存储了与将要执行的功能相匹配的GID信息的情况下,处理单元350可以利用与将要执行的功能相匹配的GID信息中包括的数据信息执行该功能。这里,GID信息中的数据信息包括执行功能的过程中生成的数据,优选地包括执行功能的过程中生成的有用数据,或者说有利于执行该功能的数据。例如,针对同步信号检测的功能类型,数据信息可以包括小区的工作模式、小区的CP(Cyclic Prefix,循环前缀)配置等;针对多普勒频移补偿的功能类型,数据信息可以包括多普勒频移的值。According to an embodiment of the present disclosure, in a case where the determining unit 310 determines that the GID information matching the function to be executed is stored in the storage unit 320, the processing unit 350 may utilize the information included in the GID information matching the function to be executed Data information performs this function. Here, the data information in the GID information includes data generated in the process of performing a function, and preferably includes useful data generated in the process of performing a function, or data that is beneficial to performing the function. For example, for the function type of synchronization signal detection, the data information may include the working mode of the cell, the CP (Cyclic Prefix) configuration of the cell, etc.; for the function type of Doppler shift compensation, the data information may include Doppler The value of the frequency shift.
如上所述,根据本公开的实施例,在电子设备300存储有与将要执行的功能相匹配的GID信息的情况下,电子设备300可以直接利用匹配 的GID信息,从而省略执行该功能所需的一些前序步骤,从而更加快速高效地执行将要执行的功能。As described above, according to the embodiments of the present disclosure, when the electronic device 300 stores GID information that matches the function to be executed, the electronic device 300 can directly use the matched GID information, thereby omitting the need to perform the function. Some preliminary steps to perform the functions to be performed more quickly and efficiently.
根据本公开的实施例,请求生成单元330生成的请求信息可以包括电子设备300的当前位置、当前时间和将要执行的功能的类型。According to an embodiment of the present disclosure, the request information generated by the request generating unit 330 may include the current location of the electronic device 300, the current time, and the type of function to be executed.
根据本公开的实施例,电子设备300可以通过通信单元340从其它设备接收包括与将要执行的功能相匹配的GID信息的响应信息。According to an embodiment of the present disclosure, the electronic device 300 may receive response information including GID information matching the function to be performed from other devices through the communication unit 340.
根据本公开的实施例,其它设备在获取了电子设备300的当前位置、当前时间和电子设备300将要执行的功能的类型之后,可以利用与确定单元310类似的方法来确定是否存储有或者是否能够获取到与将要执行的功能相匹配的GID信息。进一步,在其它电子设备存储有与电子设备300将要执行的功能相匹配的GID信息或者能够获取到与电子设备300将要执行的功能相匹配的GID信息的情况下,可以向电子设备300发送响应信息,以包括该GID信息。According to an embodiment of the present disclosure, after obtaining the current location, current time, and type of function to be performed by the electronic device 300, other devices can use a method similar to the determining unit 310 to determine whether the storage is stored or whether it can be stored. Obtain the GID information that matches the function to be executed. Further, in the case that the other electronic device stores GID information matching the function to be performed by the electronic device 300 or can obtain GID information matching the function to be performed by the electronic device 300, the response information may be sent to the electronic device 300 To include the GID information.
根据本公开的实施例,在电子设备300从其它设备获取了与将要执行的功能相匹配的GID信息的情况下,处理单元350可以利用与将要执行的功能相匹配的GID信息中包括的数据信息执行该功能。According to an embodiment of the present disclosure, in a case where the electronic device 300 acquires GID information that matches the function to be performed from another device, the processing unit 350 may utilize data information included in the GID information that matches the function to be performed Perform this function.
根据本公开的实施例,在电子设备300从其它设备获取了与将要执行的功能相匹配的GID信息的情况下,电子设备300还可以将从电子设备接收的与将要执行的功能相匹配的GID信息存储在存储单元320中。这样一来,电子设备300的存储单元320中存储的GID信息更加丰富,便于以后使用该GID信息或者向其它设备提供该GID信息。According to an embodiment of the present disclosure, in a case where the electronic device 300 obtains GID information matching the function to be executed from another device, the electronic device 300 may also receive the GID from the electronic device that matches the function to be executed. The information is stored in the storage unit 320. In this way, the GID information stored in the storage unit 320 of the electronic device 300 is richer, which is convenient for later use of the GID information or for providing the GID information to other devices.
如上所述,根据本公开的实施例,在电子设备300能够从其它设备获取与将要执行的功能相匹配的GID信息的情况下,电子设备300可以直接利用匹配的GID信息,从而省略执行该功能所需的一些前序步骤,从而更加快速高效地执行将要执行的功能。As described above, according to the embodiments of the present disclosure, in the case where the electronic device 300 can obtain GID information matching the function to be executed from other devices, the electronic device 300 can directly utilize the matched GID information, thereby omitting the execution of the function Some pre-order steps required to perform the functions to be performed more quickly and efficiently.
如上描述了电子设备300存储有与将要执行的功能相匹配的GID信息的情形和电子设备300能够从其它设备获取与将要执行的功能相匹配的GID信息的情形。当然也存在电子设备没有存储与将要执行的功能相匹配的GID信息、并且没有从其它设备获取与将要执行的功能相匹配的GID信息的情形。例如,电子设备300可以通过从其它设备接收表示没有与将要执行的功能相匹配的GID信息的响应信息来确定不能从该设备获取与将要执行的功能相匹配的GID信息。可选地,电子设备300也可以 设置计时器,在计时器期满没有从其它设备接收到与将要执行的功能相匹配的GID信息的情况下,可以确定不能从该设备获取与将要执行的功能相匹配的GID信息。As described above, the case where the electronic device 300 stores the GID information matching the function to be executed and the case where the electronic device 300 can obtain the GID information matching the function to be executed from other devices have been described. Of course, there are also cases where the electronic device does not store GID information that matches the function to be executed, and does not obtain GID information that matches the function to be executed from other devices. For example, the electronic device 300 may determine that the GID information matching the function to be executed cannot be acquired from the device by receiving response information from other devices indicating that there is no GID information matching the function to be executed. Optionally, the electronic device 300 may also set a timer, and when the timer expires and does not receive GID information matching the function to be executed from another device, it may be determined that the function to be executed cannot be obtained from the device. Match GID information.
根据本公开的实施例,如图3所示,电子设备300还可以包括GID信息生成单元360,用于在没有存储与将要执行的功能相匹配的GID信息、并且没有从其它设备获取与将要执行的功能相匹配的GID信息的情况下,在处理单元350执行功能之后,生成GID信息。According to an embodiment of the present disclosure, as shown in FIG. 3, the electronic device 300 may further include a GID information generating unit 360, which is used to store GID information that matches the function to be executed and does not obtain information from other devices that matches the function to be executed. In the case of the GID information that matches the function, the processing unit 350 generates GID information after the function is executed.
这里,GID信息生成单元360可以将电子设备300当前的位置作为GID信息中的位置信息,将当前时间包括在GID信息中的时间信息中,并将执行的功能的类型作为GID信息中的类型信息。进一步,GID信息生成单元360将执行该功能的过程中生成的数据包括在GID信息中的数据信息中。Here, the GID information generating unit 360 may use the current location of the electronic device 300 as the location information in the GID information, include the current time in the time information in the GID information, and use the type of function performed as the type information in the GID information . Further, the GID information generating unit 360 includes the data generated during the execution of the function in the data information in the GID information.
根据本公开的实施例,生成的GID信息中的位置信息可以包括三维坐标形式的点位置,也可以包括指示地理区域的区域位置。也就是说,对于对位置精度要求比较低的功能类型,可以用区域位置来表示位置信息,从而简化位置信息的获取过程并减少位置信息所需的比特数。According to an embodiment of the present disclosure, the position information in the generated GID information may include a point position in the form of three-dimensional coordinates, and may also include a regional position indicating a geographic area. In other words, for functional types that require relatively low location accuracy, regional locations can be used to represent location information, thereby simplifying the process of obtaining location information and reducing the number of bits required for location information.
根据本公开的实施例,生成的GID信息中的时间信息可以包括例如用时间戳表示的当前时间,该时间戳基于统一的时间系统,例如UTC(世界标准时间),还可以包括GID信息针对的目标设备的运行周期。这里,由于目标设备可能是卫星设备,而卫星设备的运动具有一定的周期性,在相差运行周期的整数倍的两个时间点的参数是相同或类似的,因此时间信息中包括运行周期可以更好地匹配GID信息。According to an embodiment of the present disclosure, the time information in the generated GID information may include, for example, the current time represented by a timestamp based on a unified time system, such as UTC (Universal Standard Time), and may also include what the GID information is for. The operating cycle of the target device. Here, since the target device may be a satellite device, and the movement of the satellite device has a certain periodicity, the parameters at two time points that differ by an integer multiple of the operation period are the same or similar, so the time information including the operation period can be changed. Match GID information well.
根据本公开的实施例,功能的类型可以是对功能的效果方面的基本描述,即网元通过该功能所能够达到的效果。例如可以包括多普勒频移补偿、同步信号检测、网络接入、业务分布、频率使用等。本公开适用于无线通信过程中的各个功能,因此对功能的类型不做限定。According to the embodiments of the present disclosure, the type of function may be a basic description of the effect of the function, that is, the effect that the network element can achieve through the function. For example, it can include Doppler frequency shift compensation, synchronization signal detection, network access, service distribution, frequency usage, etc. The present disclosure is applicable to various functions in the wireless communication process, so the type of functions is not limited.
根据本公开的实施例,生成的GID信息中的数据信息可以包括GID信息针对的目标设备、数据信息的属性和数据信息的值。这里,GID信息针对的目标设备表示生成该GID信息时执行的功能所涉及的目标。例如,当功能类型是多普勒频移补偿时,电子设备300生成的GID信息针对的目标设备可以是与电子设备300进行通信的卫星设备,即在电子设备300和该卫星设备之间需要进行多普勒频移补偿。进一步,数据信息的属性表 示该数据信息具体涉及的参数。例如,当功能类型是多普勒频移补偿时,数据信息的属性可以是多普勒频移。此外,数据信息的值表示该数据信息具体涉及的参数的值。例如,当功能类型是多普勒频移补偿时,数据信息的值表示多普勒频移的值。According to an embodiment of the present disclosure, the data information in the generated GID information may include the target device targeted by the GID information, the attribute of the data information, and the value of the data information. Here, the target device targeted by the GID information indicates the target involved in the function executed when the GID information is generated. For example, when the function type is Doppler shift compensation, the target device for which the GID information generated by the electronic device 300 is directed may be a satellite device that communicates with the electronic device 300, that is, it needs to be performed between the electronic device 300 and the satellite device. Doppler frequency shift compensation. Further, the attributes of the data information indicate the parameters specifically related to the data information. For example, when the function type is Doppler shift compensation, the attribute of the data information may be Doppler shift. In addition, the value of the data information indicates the value of the parameter specifically related to the data information. For example, when the function type is Doppler shift compensation, the value of the data information represents the value of Doppler shift.
根据本公开的实施例,在处理单元350执行完相应的功能之后,生成的数据可能有一个,也可以有多个,因此GID信息生成单元360可以根据生成的数据生成一条或多条GID信息。According to the embodiment of the present disclosure, after the processing unit 350 performs the corresponding function, there may be one or more data generated. Therefore, the GID information generating unit 360 may generate one or more pieces of GID information according to the generated data.
根据本公开的实施例,在GID信息生成单元360生成GID信息之后,可以将生成的GID信息存储在存储单元320中。这样一来,电子设备300的存储单元320中存储的GID信息更加丰富,便于以后使用该GID信息或者向其它设备提供该GID信息。According to an embodiment of the present disclosure, after the GID information generating unit 360 generates GID information, the generated GID information may be stored in the storage unit 320. In this way, the GID information stored in the storage unit 320 of the electronic device 300 is richer, which is convenient for later use of the GID information or for providing the GID information to other devices.
进一步,电子设备300还可以通过通信单元340将生成的GID信息发送至网络侧设备或DC。这样一来,通过不同的DC之间的接口可以使得电子设备300生成的GID信息在整个无线通信系统中共享。Further, the electronic device 300 may also send the generated GID information to the network side device or DC through the communication unit 340. In this way, the GID information generated by the electronic device 300 can be shared in the entire wireless communication system through the interface between different DCs.
根据本公开的实施例,电子设备300可以选择性地上报一些GID信息,例如根据GID信息的功能的类型来确定是否上报该GID信息。可选地,电子设备300也可以将生成的所有GID信息都上报至网络侧设备或DC。此外,电子设备300可以周期性上报生成的一条或多条GID信息,也可以事件性触发上报生成的GID信息。根据本公开的实施例,可以由网络侧设备来配置电子设备300的上述上报GID信息的方式,本公开对此不做限定。According to an embodiment of the present disclosure, the electronic device 300 may selectively report some GID information, for example, determine whether to report the GID information according to the function type of the GID information. Optionally, the electronic device 300 may also report all generated GID information to the network side device or DC. In addition, the electronic device 300 may periodically report one or more pieces of generated GID information, or may trigger the report of the generated GID information as an event. According to the embodiment of the present disclosure, the above-mentioned GID information reporting manner of the electronic device 300 can be configured by the network side device, which is not limited in the present disclosure.
如上所述,电子设备300可以生成GID信息并存储和/或上报GID信息。根据本公开的实施例,网络侧设备和DC也可以生成GID信息。这里,电子设备300生成的GID信息主要包括电子设备300的链路信息,例如多普勒频移值、波束的角度信息和卫星星历信息等,网络侧设备生成的GID信息主要包括小区层面的信息,例如用户的业务分布、数据包的平均时延和随机接入的成功概率等信息,而DC生成的GID信息主要包括网络级的信息,例如多个网络侧设备的频率使用信息、小区的负载情况和小区的掉话率等。As described above, the electronic device 300 can generate GID information and store and/or report the GID information. According to an embodiment of the present disclosure, the network side device and the DC can also generate GID information. Here, the GID information generated by the electronic device 300 mainly includes the link information of the electronic device 300, such as Doppler frequency shift value, beam angle information and satellite ephemeris information, etc. The GID information generated by the network side device mainly includes cell-level information. Information, such as the user’s service distribution, the average delay of data packets, and the success probability of random access. The GID information generated by DC mainly includes network-level information, such as frequency usage information of multiple network-side devices, Load situation and cell drop rate, etc.
进一步,当网络侧设备生成GID信息之后,可以上报至DC。与电子设备300类似,网络侧设备可以选择性地上报一些GID信息,例如根据GID信息的功能的类型来确定是否上报该GID信息。可选地,网络侧 设备也可以将生成的所有GID信息都上报至DC。此外,网络侧设备可以周期性上报生成的一条或多条GID信息,也可以事件性触发上报生成的GID信息。Further, after the network-side device generates the GID information, it can be reported to the DC. Similar to the electronic device 300, the network-side device can selectively report some GID information, for example, according to the function type of the GID information to determine whether to report the GID information. Optionally, the network side device can also report all generated GID information to the DC. In addition, the network-side device may periodically report one or more pieces of generated GID information, or may trigger the report of the generated GID information on an eventual basis.
图5示出了根据本公开的实施例的GID信息的示例。如图5所示,以多普勒频移补偿为例示出了UE生成的GID信息,其中,功能类型为多普勒频移补偿,数据信息中的目标设备包括卫星设备的ID或小区ID,时间信息包括该卫星设备的运行周期和时间戳,数据信息的属性为多普勒频移,而数据信息的值为多普勒频移的具体数值。图5以gNB所服务的所有用户的业务分布为例示出了gNB生成的GID信息,其中,功能类型为业务分布,数据信息中的目标设备包括作为卫星设备的gNB的卫星ID或小区ID,时间信息包括该卫星设备的运行周期和时间戳,数据信息的属性为业务状态,而数据信息的值为业务状态的具体数值。图5以多个gNB的频率使用为例示出了DC生成的GID信息,其中,功能类型为频率使用,数据信息中的目标设备包括作为卫星设备的多个gNB的卫星ID或小区ID,时间信息包括该卫星设备的运行周期和时间戳,数据信息的属性为频率,而数据信息的值为频率的具体数值。FIG. 5 shows an example of GID information according to an embodiment of the present disclosure. As shown in Figure 5, Doppler frequency shift compensation is taken as an example to show the GID information generated by the UE, where the function type is Doppler frequency shift compensation, and the target device in the data information includes the ID or cell ID of the satellite device. The time information includes the operating period and time stamp of the satellite equipment, the attribute of the data information is the Doppler frequency shift, and the value of the data information is the specific value of the Doppler frequency shift. Figure 5 shows the GID information generated by gNB using the service distribution of all users served by gNB as an example. The function type is service distribution. The target device in the data information includes the satellite ID or cell ID of the gNB as a satellite device. The information includes the operating period and time stamp of the satellite equipment, the attribute of the data information is the business state, and the value of the data information is the specific value of the business state. Figure 5 shows the GID information generated by DC using the frequency usage of multiple gNBs as an example, where the function type is frequency usage, and the target device in the data information includes the satellite IDs or cell IDs of multiple gNBs as satellite devices, and time information Including the operating period and time stamp of the satellite equipment, the attribute of the data information is frequency, and the value of the data information is the specific value of the frequency.
根据本公开的实施例,电子设备300可以向其周围的其它用户设备来请求GID信息,也就是说,其它设备包括电子设备300周围的其它用户设备。在这种情况下,电子设备300可以向其它用户设备广播发送请求信息。According to an embodiment of the present disclosure, the electronic device 300 may request GID information from other user devices around it, that is, the other devices include other user devices around the electronic device 300. In this case, the electronic device 300 may broadcast transmission request information to other user equipment.
根据本公开的实施例,电子设备300也可以向为其服务的网络侧设备请求GID信息,也就是说,其它设备包括为电子设备300提供服务的网络侧设备。According to an embodiment of the present disclosure, the electronic device 300 may also request GID information from the network-side device serving it, that is, other devices include the network-side device that provides services for the electronic device 300.
根据本公开的实施例,如图3所示,电子设备300还可以包括决策单元370,用于确定向其发送请求信息的其它设备。也就是说,决策单元370可以确定向哪个或者哪些设备发送请求信息。例如,决策单元370可以确定向电子设备300周围的用户设备发送请求信息。再如,决策单元370可以确定向为电子设备300服务的网络侧设备发送请求信息。According to an embodiment of the present disclosure, as shown in FIG. 3, the electronic device 300 may further include a decision unit 370 for determining other devices to which request information is sent. That is, the decision unit 370 can determine which device or devices to send the request information to. For example, the decision unit 370 may determine to send request information to user equipment around the electronic device 300. For another example, the decision unit 370 may determine to send the request information to the network side device serving the electronic device 300.
根据本公开的实施例,决策单元370可以根据电子设备300的D2D能力来确定其它设备。例如,在电子设备300能够进行D2D通信的情况下,决策单元370可以确定其它设备是电子设备300周围的用户设备;在电子设备300不能够进行D2D通信的情况下,决策单元370可以确定其它设备是为电子设备300服务的网络侧设备。According to an embodiment of the present disclosure, the decision unit 370 may determine other devices according to the D2D capability of the electronic device 300. For example, when the electronic device 300 is capable of D2D communication, the decision unit 370 may determine that other devices are user equipment around the electronic device 300; when the electronic device 300 is not capable of D2D communication, the decision unit 370 may determine other devices It is a network side device that serves the electronic device 300.
根据本公开的实施例,决策单元370也可以首先确定其它设备是电子设备300周围的用户设备。也就是说,在电子设备300没有存储与将要执行的功能相匹配的GID信息的情况下,向周围的用户设备发送请求信息。由于电子设备300与其它用户设备之间通过D2D方式通信,因此可以更加快速地获取所需的GID信息。进一步,根据本公开的实施例,在电子设备300没有从其它用户设备获取与将要执行的功能相匹配的GID信息的情况下,决策单元370可以确定其它设备是为电子设备300服务的网络侧设备。也就是说,在电子设备300没有从其它用户设备获取与将要执行的功能相匹配的GID信息的情况下,电子设备300可以向网络侧设备发送请求信息。这里,相比于用户设备而言,网络侧设备的GID中存储的GID信息更加全面,因此电子设备300获取到所需的GID信息的可能性更大。According to an embodiment of the present disclosure, the decision unit 370 may also first determine that other devices are user devices around the electronic device 300. That is, when the electronic device 300 does not store GID information matching the function to be executed, the request information is sent to surrounding user devices. Since the electronic device 300 communicates with other user equipment in a D2D manner, the required GID information can be obtained more quickly. Further, according to an embodiment of the present disclosure, when the electronic device 300 does not obtain GID information matching the function to be performed from other user equipment, the decision unit 370 may determine that the other device is a network side device serving the electronic device 300 . That is, in a case where the electronic device 300 does not obtain GID information matching the function to be executed from other user devices, the electronic device 300 may send request information to the network side device. Here, compared to the user equipment, the GID information stored in the GID of the network side device is more comprehensive, so the electronic device 300 is more likely to obtain the required GID information.
如上所述,根据本公开的实施例,电子设备300的决策单元370可以根据一定的准则决策电子设备300向电子设备300周围的用户设备和/或为电子设备300服务的网络侧设备发送请求信息,由此可以快速可靠地获取所需的GID信息。As described above, according to the embodiments of the present disclosure, the decision unit 370 of the electronic device 300 can make a decision based on certain criteria for the electronic device 300 to send request information to the user equipment around the electronic device 300 and/or to the network side device serving the electronic device 300 , Which can quickly and reliably obtain the required GID information.
由此可见,根据本公开的实施例的电子设备300,在存储有与将要执行的功能相匹配的GID信息的情况下,可以直接利用匹配的GID信息,从而省略执行该功能所需的一些前序步骤,更加快速高效地执行将要执行的功能。而在电子设备300确定没有存储与将要执行的功能相匹配的GID信息的情况下,可以向其它设备请求与将要执行的功能相匹配的GID信息。这里,GID信息包括其它电子设备在执行这样的功能的过程中生成的数据。这样一来,电子设备300可以与其它设备共享GID信息,也可以更加快速高效地执行功能。此外,在电子设备300没有存储所需的GID信息也没有从其它设备获取所需的GID信息的情况下,电子设备300可以在执行完相应的功能后生成GID信息并存储该GID信息和/或向网络侧设备上报该GID信息。这样一来,电子设备300存储的GID信息更加丰富,便于以后使用该GID信息或者向其它设备提供该GID信息。根据本公开的实施例,电子设备300可以向其周围的其它用户设备或者为电子设备300服务的网络侧设备请求所需的GID信息,由此可以快速可靠地获取所需的GID信息。It can be seen that, according to the electronic device 300 of the embodiment of the present disclosure, when the GID information that matches the function to be executed is stored, the matched GID information can be directly used, thereby omitting some of the prerequisites required to execute the function. Sequence steps to perform the functions to be performed more quickly and efficiently. In the case where the electronic device 300 determines that no GID information matching the function to be executed is stored, it may request the GID information matching the function to be executed from other devices. Here, the GID information includes data generated by other electronic devices in the process of performing such functions. In this way, the electronic device 300 can share GID information with other devices, and can also perform functions more quickly and efficiently. In addition, when the electronic device 300 does not store the required GID information nor obtains the required GID information from other devices, the electronic device 300 may generate GID information and store the GID information and/or after performing the corresponding function. Report the GID information to the network side device. In this way, the GID information stored by the electronic device 300 is more abundant, which is convenient for later using the GID information or providing the GID information to other devices. According to the embodiments of the present disclosure, the electronic device 300 can request the required GID information from other user devices around it or the network side device serving the electronic device 300, thereby quickly and reliably acquiring the required GID information.
下面将描述根据本公开的发送用于请求GID信息的请求信息的电子设备600,这里的电子设备600可以是无线通信系统中的网络侧设备。The electronic device 600 for sending request information for requesting GID information according to the present disclosure will be described below. The electronic device 600 here may be a network side device in a wireless communication system.
图6是示出根据本公开的实施例的电子设备600的配置的示例的框图。FIG. 6 is a block diagram showing an example of the configuration of an electronic device 600 according to an embodiment of the present disclosure.
如图6所示,电子设备600可以包括确定单元610、存储单元620、请求生成单元630、通信单元640和处理单元650。可选地,电子设备600还可以包括GID信息生成单元660。As shown in FIG. 6, the electronic device 600 may include a determination unit 610, a storage unit 620, a request generation unit 630, a communication unit 640, and a processing unit 650. Optionally, the electronic device 600 may further include a GID information generating unit 660.
这里,电子设备600的各个单元都可以包括在处理电路中。需要说明的是,电子设备600既可以包括一个处理电路,也可以包括多个处理电路。进一步,处理电路可以包括各种分立的功能单元以执行各种不同的功能和/或操作。需要说明的是,这些功能单元可以是物理网元或逻辑网元,并且不同称谓的单元可能由同一个物理网元实现。Here, each unit of the electronic device 600 may be included in the processing circuit. It should be noted that the electronic device 600 may include one processing circuit or multiple processing circuits. Further, the processing circuit may include various discrete functional units to perform various different functions and/or operations. It should be noted that these functional units may be physical network elements or logical network elements, and units with different titles may be implemented by the same physical network element.
图6中所示的确定单元610、存储单元620、请求生成单元630、通信单元640、处理单元650和GID信息生成单元660分别与图3中所示的确定单元310、存储单元320、请求生成单元330、通信单元340、处理单元350和GID信息生成单元360一一对应,因此与图3中相同的部分在此不再赘述。下面仅描述与图3的电子设备300功能不同的部分。The determination unit 610, the storage unit 620, the request generation unit 630, the communication unit 640, the processing unit 650, and the GID information generation unit 660 shown in FIG. 6 are respectively the same as the determination unit 310, the storage unit 320, and the request generation shown in FIG. The unit 330, the communication unit 340, the processing unit 350, and the GID information generating unit 360 have a one-to-one correspondence, so the same parts as those in FIG. 3 are not repeated here. Only the functionally different parts from the electronic device 300 of FIG. 3 are described below.
根据本公开的实施例,电子设备600可以通过通信单元640从电子设备600服务的用户设备接收用户设备生成的GID信息,并将接收到的GID信息存储在存储单元620中。进一步,电子设备600可以为其服务的用户设备配置上报GID信息的方式,包括周期性上报、事件性触发上报、上报周期等。进一步,根据本公开的实施例,电子设备600可以通过通信单元640向电子设备600能够访问的DC上报其接收到的GID信息。由此,电子设备600和DC都可以获取并存储用户设备生成的GID信息。此外,电子设备600也可以将GID信息生成单元660生成的GID信息上报至DC。这样一来,在无线通信系统中的各个网元之间共享GID信息。According to an embodiment of the present disclosure, the electronic device 600 may receive GID information generated by the user device from a user device served by the electronic device 600 through the communication unit 640 and store the received GID information in the storage unit 620. Further, the electronic device 600 may configure a manner of reporting GID information for the user equipment it serves, including periodic reporting, event-triggered reporting, reporting cycle, and the like. Further, according to an embodiment of the present disclosure, the electronic device 600 may report the received GID information to a DC accessible by the electronic device 600 through the communication unit 640. Thus, both the electronic device 600 and the DC can obtain and store the GID information generated by the user equipment. In addition, the electronic device 600 may also report the GID information generated by the GID information generating unit 660 to the DC. In this way, GID information is shared among various network elements in the wireless communication system.
根据本公开的实施例,在电子设备600作为发送请求信息的电子设备的情况下,其它设备可以是电子设备600能够访问的DC。也就是说,电子设备600可以向DC请求所需的GID信息。这里,当电子设备600是NTN网络中的网络侧设备时,电子设备600可以向NTN网络中的DC请求所需的GID信息;当电子设备600是TN网络中的网络侧设备时,电子设备600可以向TN网络中的DC请求所需的GID信息。According to an embodiment of the present disclosure, in a case where the electronic device 600 is an electronic device that sends request information, the other device may be a DC that the electronic device 600 can access. That is, the electronic device 600 may request the required GID information from DC. Here, when the electronic device 600 is a network side device in the NTN network, the electronic device 600 can request the required GID information from the DC in the NTN network; when the electronic device 600 is a network side device in the TN network, the electronic device 600 The required GID information can be requested from the DC in the TN network.
由此可见,根据本公开的实施例的电子设备600,在存储有与将要执行的功能相匹配的GID信息的情况下,可以直接利用匹配的GID信息, 从而省略执行该功能所需的一些前序步骤,更加快速高效地执行将要执行的功能。而在电子设备600确定没有存储与将要执行的功能相匹配的GID信息的情况下,可以向其它设备请求与将要执行的功能相匹配的GID信息。这样一来,电子设备600可以与其它设备共享GID信息,也可以更加快速高效地执行功能。此外,在电子设备600没有存储所需的GID信息也没有从其它设备获取所需的GID信息的情况下,电子设备600可以在执行完相应的功能后生成GID信息并存储该GID信息和/或向DC上报该GID信息。这样一来,电子设备600存储的GID信息更加丰富,便于以后使用该GID信息或者向其它设备提供该GID信息。根据本公开的实施例,电子设备600可以向DC请求所需的GID信息,由此可以快速可靠地获取所需的GID信息。It can be seen that, according to the electronic device 600 of the embodiment of the present disclosure, when the GID information that matches the function to be executed is stored, the matched GID information can be directly used, thereby omitting some of the prerequisites for executing the function. Sequence steps to perform the functions to be performed more quickly and efficiently. In the case where the electronic device 600 determines that the GID information matching the function to be executed is not stored, it may request the GID information matching the function to be executed from other devices. In this way, the electronic device 600 can share GID information with other devices, and can also perform functions more quickly and efficiently. In addition, when the electronic device 600 does not store the required GID information nor obtains the required GID information from other devices, the electronic device 600 may generate GID information and store the GID information and/or after performing the corresponding function. Report the GID information to the DC. In this way, the GID information stored in the electronic device 600 is more abundant, which is convenient for later use of the GID information or for providing the GID information to other devices. According to an embodiment of the present disclosure, the electronic device 600 can request the required GID information from the DC, and thus can quickly and reliably obtain the required GID information.
下面将结合图7-图11来描述根据本公开的实施例的基于GID信息执行功能的过程的流程图。图7-图9和图11是示出根据本公开的实施例的基于GID信息执行功能的过程的信令流程图。图10是示出根据本公开的实施例的由UE基于GID信息执行功能的过程的流程图。Hereinafter, a flowchart of a process of executing functions based on GID information according to an embodiment of the present disclosure will be described with reference to FIGS. 7-11. Figures 7-9 and Figure 11 are signaling flowcharts illustrating a process of performing functions based on GID information according to an embodiment of the present disclosure. FIG. 10 is a flowchart illustrating a process of performing a function based on GID information by a UE according to an embodiment of the present disclosure.
图7是示出了由UE向其周围的其它UE(相邻UE)请求GID信息的过程的信令流程图,即对应于图2中的由标号①示出的过程。在图7中,UE可以由电子设备300来实现。如图7所示,在步骤S701中,UE确定是否存储了与将要执行的功能相匹配的GID信息。在没有存储与将要执行的功能相匹配的GID信息的情况下,在步骤S702中,UE向相邻UE发送用于请求GID信息的请求信息。请求信息例如可以包括UE的当前位置、当前时间以及UE将要执行的功能类型。进一步,UE可以广播发送请求信息,以使得UE周围一定范围内的其它UE都能接收到请求信息。接下来,在步骤S703中,接收到请求信息的相邻UE搜索与发送请求信息的UE将要执行的功能相匹配的GID信息,即确定其是否存储了与发送请求信息的UE将要执行的功能相匹配的GID信息。接下来,在步骤S704中,假定相邻UE存储了与发送请求信息的UE将要执行的功能相匹配的GID信息,则向发送请求信息的UE发送携带GID信息的响应信息。接下来,在步骤S705中,UE利用接收的GID信息执行功能。另一方面,在步骤S701中UE确定存储了与将要执行的功能相匹配的GID信息的情况下,在步骤S705中,UE利用存储的与将要执行的功能相匹配的GID信息执行相应的功能。可选地,假定UE没有存储所需的GID信息,也没有从相邻UE获取所需的GID信息,则在步骤S706中,UE执行功能之后,生成GID信息并存储该GID信息。FIG. 7 is a signaling flow chart showing a process of a UE requesting GID information from other UEs (neighboring UEs) around it, that is, corresponding to the process shown by reference numeral ① in FIG. 2. In FIG. 7, the UE may be implemented by the electronic device 300. As shown in FIG. 7, in step S701, the UE determines whether the GID information matching the function to be executed is stored. In the case where GID information matching the function to be executed is not stored, in step S702, the UE sends request information for requesting GID information to the neighboring UE. The request information may include, for example, the current location of the UE, the current time, and the type of function that the UE will perform. Further, the UE may broadcast the request information, so that other UEs within a certain range around the UE can receive the request information. Next, in step S703, the neighboring UE that has received the request information searches for GID information that matches the function to be performed by the UE that sends the request information, that is, determines whether it stores a function that matches the function that the UE that sends the request information will perform. Matching GID information. Next, in step S704, assuming that the neighboring UE has stored GID information that matches the function to be performed by the UE sending the request information, the UE sending the request information sends response information carrying the GID information. Next, in step S705, the UE performs a function using the received GID information. On the other hand, if the UE determines in step S701 that the GID information matching the function to be executed is stored, in step S705, the UE executes the corresponding function using the stored GID information matching the function to be executed. Optionally, assuming that the UE does not store the required GID information, nor obtains the required GID information from the neighboring UEs, in step S706, after the UE executes the function, the GID information is generated and stored.
图8是示出了由UE向为其服务的网络侧设备请求GID信息的过程的信令流程图,这里的网络侧设备可以是TN-gNB,也可以是非透明NTN-gNB,即对应于图2中的由标号②和⑤示出的过程。在图8中,UE可以由电子设备300来实现。如图8所示,在步骤S801中,UE确定是否存储了与将要执行的功能相匹配的GID信息。在没有存储与将要执行的功能相匹配的GID信息的情况下,在步骤S802中,UE向网络侧设备发送用于请求GID信息的请求信息。请求信息例如可以包括UE的当前位置、当前时间以及UE将要执行的功能类型。接下来,在步骤S803中,网络侧设备搜索与发送请求信息的UE将要执行的功能相匹配的GID信息,即确定其是否存储了与发送请求信息的UE将要执行的功能相匹配的GID信息。接下来,在步骤S804中,假定网络侧设备存储了与发送请求信息的UE将要执行的功能相匹配的GID信息,则向发送请求信息的UE发送携带GID信息的响应信息。接下来,在步骤S805中,UE利用接收的GID信息执行功能。另一方面,在步骤S801中UE确定存储了与将要执行的功能相匹配的GID信息的情况下,在步骤S805中,UE利用存储的与将要执行的功能相匹配的GID信息执行相应的功能。可选地,假定UE没有存储所需的GID信息,也没有从网络侧设备获取所需的GID信息,则在步骤S806中,UE执行功能之后,生成GID信息并存储该GID信息。Figure 8 is a signaling flow chart showing the process of the UE requesting GID information from the network-side equipment served by the UE. The network-side equipment here can be a TN-gNB or a non-transparent NTN-gNB, which corresponds to the figure The process in 2 is shown by the labels ② and ⑤. In FIG. 8, the UE may be implemented by the electronic device 300. As shown in FIG. 8, in step S801, the UE determines whether GID information matching the function to be executed is stored. If the GID information matching the function to be executed is not stored, in step S802, the UE sends request information for requesting GID information to the network side device. The request information may include, for example, the current location of the UE, the current time, and the type of function that the UE will perform. Next, in step S803, the network side device searches for GID information matching the function to be performed by the UE sending the request information, that is, determines whether it stores GID information matching the function to be performed by the UE sending the request information. Next, in step S804, assuming that the network-side device stores GID information matching the function to be performed by the UE sending the request information, it sends response information carrying the GID information to the UE sending the request information. Next, in step S805, the UE performs a function using the received GID information. On the other hand, if the UE determines in step S801 that GID information matching the function to be executed is stored, in step S805, the UE executes the corresponding function using the stored GID information matching the function to be executed. Optionally, assuming that the UE does not store the required GID information, nor does it obtain the required GID information from the network side device, in step S806, after the UE executes the function, the GID information is generated and stored.
图9是示出了由UE向为其服务的网络侧设备请求GID信息的过程的信令流程图,这里的网络侧设备可以是透明NTN-gNB,即对应于图2中的由标号③示出的过程。在图9中,UE可以由电子设备300来实现。如图9所示,在步骤S901中,UE确定是否存储了与将要执行的功能相匹配的GID信息。在没有存储与将要执行的功能相匹配的GID信息的情况下,在步骤S902中,UE向网络侧设备发送用于请求GID信息的请求信息。请求信息例如可以包括UE的当前位置、当前时间以及UE将要执行的功能类型。接下来,在步骤S903中,网络侧设备向DC转发来自UE的请求信息。这里,由于透明NTN-gNB不具备数据处理的能力,所以直接转发请求信息至DC,例如NTN-DC。接下来,在步骤S904中,NTN-DC搜索与发送请求信息的UE将要执行的功能相匹配的GID信息,即确定其是否存储了与发送请求信息的UE将要执行的功能相匹配的GID信息。接下来,在步骤S905中,假定NTN-DC存储了与发送请求信息的UE将要执行的功能相匹配的GID信息,则向透明NTN-gNB发送携带GID信息的响应信息。接下来,在步骤S906中,透明NTN-gNB向UE转发响应信息。接下来,在步骤S907中,UE利用接收的GID信息执行功能。另一 方面,在步骤S901中UE确定存储了与将要执行的功能相匹配的GID信息的情况下,在步骤S907中,UE利用存储的与将要执行的功能相匹配的GID信息执行相应的功能。可选地,假定UE没有存储所需的GID信息,也没有从网络侧设备获取所需的GID信息,则在步骤S908中,UE执行功能之后,生成GID信息并存储该GID信息。Figure 9 is a signaling flow chart showing the process of a UE requesting GID information from a network-side device serving it. The network-side device here can be a transparent NTN-gNB, which corresponds to the reference number ③ in Figure 2 Out of the process. In FIG. 9, the UE may be implemented by the electronic device 300. As shown in FIG. 9, in step S901, the UE determines whether the GID information matching the function to be executed is stored. In the case where GID information matching the function to be executed is not stored, in step S902, the UE sends request information for requesting GID information to the network side device. The request information may include, for example, the current location of the UE, the current time, and the type of function that the UE will perform. Next, in step S903, the network side device forwards the request information from the UE to the DC. Here, since the transparent NTN-gNB does not have the ability to process data, it directly forwards the request information to a DC, such as NTN-DC. Next, in step S904, the NTN-DC searches for GID information matching the function to be performed by the UE sending the request information, that is, determines whether it stores GID information matching the function to be performed by the UE sending the request information. Next, in step S905, assuming that the NTN-DC stores GID information matching the function to be performed by the UE sending the request information, it sends response information carrying the GID information to the transparent NTN-gNB. Next, in step S906, the transparent NTN-gNB forwards the response information to the UE. Next, in step S907, the UE performs a function using the received GID information. On the other hand, if the UE determines in step S901 that the GID information matching the function to be executed is stored, in step S907, the UE executes the corresponding function using the stored GID information matching the function to be executed. Optionally, assuming that the UE does not store the required GID information, nor does it obtain the required GID information from the network side device, in step S908, after the UE executes the function, the GID information is generated and stored.
图10是示出根据本公开的实施例的由UE基于GID信息执行功能的过程的流程图。图10可以是由电子设备300来执行的流程图。由图10所示,在步骤S1001中,UE确定是否存储了与将要执行的功能相匹配的GID信息。在步骤S1001确定为否的情况下,在步骤S1002中,UE向相邻的UE广播发送请求信息。接下来,在步骤S1003中,UE确定是否从相邻的UE接收到包括所需的GID信息的响应信息。在步骤S1003确定为否的情况下,在步骤S1004中,UE向gNB发送请求信息。接下来,在步骤S1005中,UE确定是否从gNB接收到包括GID信息的响应信息。在步骤S1005确定为是的情况下,在步骤S1008中,UE利用接收到的GID信息执行相应的功能,然后过程结束。在步骤S1005确定为否的情况下,在步骤S1006中,UE直接执行相应的功能。接下来,在步骤S1007中,UE生成GID信息并存储该GID信息,然后过程结束。在步骤S1003确定为是的情况下,过程转到步骤S1008。在步骤S1008中,UE利用接收的GID信息执行相应的功能,然后过程结束。在步骤S1001中确定为是的情况下,过程转到步骤S1008。在步骤S1008中,UE利用存储的GID信息执行相应的功能,然后过程结束。FIG. 10 is a flowchart illustrating a process of performing a function based on GID information by a UE according to an embodiment of the present disclosure. FIG. 10 may be a flowchart executed by the electronic device 300. As shown in FIG. 10, in step S1001, the UE determines whether GID information matching the function to be executed is stored. If the determination in step S1001 is no, in step S1002, the UE broadcasts the transmission request information to the neighboring UE. Next, in step S1003, the UE determines whether response information including required GID information is received from a neighboring UE. If the determination in step S1003 is No, in step S1004, the UE sends request information to the gNB. Next, in step S1005, the UE determines whether response information including GID information is received from the gNB. In a case where the determination in step S1005 is YES, in step S1008, the UE executes the corresponding function using the received GID information, and then the process ends. In the case where the determination in step S1005 is no, in step S1006, the UE directly executes the corresponding function. Next, in step S1007, the UE generates GID information and stores the GID information, and then the process ends. In a case where the determination in step S1003 is YES, the process goes to step S1008. In step S1008, the UE uses the received GID information to perform a corresponding function, and then the process ends. In the case where the determination is YES in step S1001, the process goes to step S1008. In step S1008, the UE performs a corresponding function using the stored GID information, and then the process ends.
图11是示出了由网络侧设备向其能够访问的DC请求GID信息的过程的信令流程图。这里的网络侧设备可以是TN-gNB,其可以向TN-DC请求GID信息,即对应于图2中的由标号⑥示出的过程。网络侧设备也可以是非透明NTN-gNB,其可以向NTN-DC请求GID信息,即对应于图2中的由标号④示出的过程。在图11中,gNB可以由电子设备600来实现。如图11所示,在步骤S1101中,gNB确定是否存储了与将要执行的功能相匹配的GID信息。在没有存储与将要执行的功能相匹配的GID信息的情况下,在步骤S1102中,gNB向DC发送用于请求GID信息的请求信息。请求信息例如可以包括gNB的当前位置、当前时间以及gNB将要执行的功能类型。接下来,在步骤S1103中,接收到请求信息的DC搜索与发送请求信息的gNB将要执行的功能相匹配的GID信息,即确定其是否存储了与发送请求信息的gNB将要执行的功能相匹配的GID信息。接下来,在步骤S1104中,假定DC存储了与发送请求信息的gNB将要 执行的功能相匹配的GID信息,则向发送请求信息的gNB发送携带GID信息的响应信息。接下来,在步骤S1105中,gNB利用接收的GID信息执行功能。另一方面,在步骤S1101中gNB确定存储了与将要执行的功能相匹配的GID信息的情况下,在步骤S1105中,gNB利用存储的与将要执行的功能相匹配的GID信息执行相应的功能。可选地,假定gNB没有存储所需的GID信息,也没有从DC获取所需的GID信息,则在步骤S1106中,gNB执行功能之后,生成GID信息并存储该GID信息。FIG. 11 is a signaling flowchart showing a process of a network-side device requesting GID information from a DC that it can access. The network side device here may be a TN-gNB, which may request GID information from TN-DC, which corresponds to the process shown by the reference number ⑥ in FIG. 2. The network side device can also be a non-transparent NTN-gNB, which can request GID information from the NTN-DC, which corresponds to the process shown by the reference ④ in FIG. 2. In FIG. 11, the gNB may be implemented by the electronic device 600. As shown in FIG. 11, in step S1101, the gNB determines whether GID information matching the function to be executed is stored. In the case that GID information matching the function to be executed is not stored, in step S1102, the gNB sends request information for requesting GID information to the DC. The request information may include, for example, the current location of the gNB, the current time, and the type of function to be performed by the gNB. Next, in step S1103, the DC that has received the request information searches for GID information that matches the function that the gNB that sends the request information will perform, that is, determines whether it stores a function that matches the function that the gNB that sends the request information will perform. GID information. Next, in step S1104, assuming that the DC stores the GID information matching the function to be performed by the gNB sending the request information, it sends response information carrying the GID information to the gNB sending the request information. Next, in step S1105, the gNB executes a function using the received GID information. On the other hand, in the case where the gNB determines in step S1101 that GID information matching the function to be executed is stored, in step S1105, the gNB executes the corresponding function using the stored GID information matching the function to be executed. Optionally, assuming that the gNB does not store the required GID information, nor does it obtain the required GID information from the DC, in step S1106, after the gNB performs the function, the GID information is generated and stored.
<3.接收请求信息的电子设备的配置示例><3. Configuration example of the electronic device that receives the requested information>
如上描述了根据本公开的实施例的用于发送请求信息的电子设备300和电子设备600。下面将详细描述根据本公开的实施例的用于接收请求信息的电子设备。根据本公开的实施例,用于接收请求信息的电子设备可以是用户设备、网络侧设备或DC。下文将分别描述这三种情况。The electronic device 300 and the electronic device 600 for transmitting request information according to an embodiment of the present disclosure are described above. The electronic device for receiving request information according to an embodiment of the present disclosure will be described in detail below. According to an embodiment of the present disclosure, the electronic device for receiving request information may be a user equipment, a network side device, or a DC. These three situations will be described separately below.
图12是示出根据本公开的实施例的无线通信系统中的电子设备1200的结构的框图。这里,电子设备1200可以是接收用于请求GID信息的请求信息的电子设备,例如无线通信系统中的用户设备。FIG. 12 is a block diagram showing the structure of an electronic device 1200 in a wireless communication system according to an embodiment of the present disclosure. Here, the electronic device 1200 may be an electronic device that receives request information for requesting GID information, for example, a user equipment in a wireless communication system.
如图12所示,电子设备1200可以包括通信单元1210和响应信息生成单元1220。As shown in FIG. 12, the electronic device 1200 may include a communication unit 1210 and a response information generating unit 1220.
这里,电子设备1200的各个单元都可以包括在处理电路中。需要说明的是,电子设备1200既可以包括一个处理电路,也可以包括多个处理电路。进一步,处理电路可以包括各种分立的功能单元以执行各种不同的功能和/或操作。需要说明的是,这些功能单元可以是物理网元或逻辑网元,并且不同称谓的单元可能由同一个物理网元实现。Here, each unit of the electronic device 1200 may be included in the processing circuit. It should be noted that the electronic device 1200 may include one processing circuit or multiple processing circuits. Further, the processing circuit may include various discrete functional units to perform various different functions and/or operations. It should be noted that these functional units may be physical network elements or logical network elements, and units with different titles may be implemented by the same physical network element.
根据本公开的实施例,电子设备1200可以通过通信单元1210从其它设备接收用于请求与其它设备将要执行的功能相匹配的GID信息的请求信息,GID信息包括与其它设备将要执行的功能相关联的数据。According to an embodiment of the present disclosure, the electronic device 1200 may receive request information for requesting GID information matching the function to be performed by the other device from the other device through the communication unit 1210, the GID information includes being associated with the function to be performed by the other device The data.
根据本公开的实施例,响应信息生成单元1220可以响应于接收到的请求信息而生成响应信息。响应信息中可以包括与其它设备将要执行的功能相匹配的GID信息。According to an embodiment of the present disclosure, the response information generating unit 1220 may generate response information in response to the received request information. The response information may include GID information that matches the function to be performed by other devices.
根据本公开的实施例,电子设备1200可以通过通信单元1210向其它设备发送包括响应信息以用于其它设备利用响应信息中包括的GID信息来执行将要执行的功能。According to an embodiment of the present disclosure, the electronic device 1200 may send response information including response information to another device through the communication unit 1210 for the other device to perform a function to be performed using the GID information included in the response information.
由此可见,根据本公开的实施例的电子设备1200,在接收到来自其 它设备的请求信息的情况下,可以向其它设备发送包括其它设备所需的GID信息的响应信息。这样一来,电子设备1200可以与其它设备共享GID信息,使得其它设备可以更加快速高效地执行功能。It can be seen that the electronic device 1200 according to the embodiment of the present disclosure can send response information including the GID information required by the other device to the other device when receiving the request information from the other device. In this way, the electronic device 1200 can share GID information with other devices, so that other devices can perform functions more quickly and efficiently.
根据本公开的实施例,GID信息包括位置信息、时间信息、类型信息和数据信息,位置信息包括生成GID信息的位置、时间信息包括生成GID信息的时间、类型信息包括GID信息针对的功能的类型,数据信息包括执行该功能的过程中生成的数据。According to an embodiment of the present disclosure, the GID information includes location information, time information, type information, and data information. The location information includes the location where the GID information is generated, the time information includes the time when the GID information is generated, and the type information includes the type of the function targeted by the GID information. , Data information includes data generated during the execution of the function.
根据本公开的实施例,其它设备可以是电子设备1200周围的其它用户设备。也就是说,电子设备1200可以从其周围的其它用户设备接收用于请求GID信息的请求信息。According to an embodiment of the present disclosure, other devices may be other user devices around the electronic device 1200. That is, the electronic device 1200 may receive request information for requesting GID information from other user devices around it.
根据本公开的实施例,电子设备1200接收到的请求信息可以包括其它设备的当前位置、当前时间和其它设备将要执行的功能的类型。According to an embodiment of the present disclosure, the request information received by the electronic device 1200 may include the current location of the other device, the current time, and the type of function to be performed by the other device.
根据本公开的实施例,如图12所示,电子设备1200还可以包括存储单元1240,用于存储GID信息。存储单元1240存储的GID信息可以是电子设备1200生成的GID信息,也可以是从其它设备,例如其它用户设备或者网络侧设备获取的GID信息。According to an embodiment of the present disclosure, as shown in FIG. 12, the electronic device 1200 may further include a storage unit 1240 for storing GID information. The GID information stored in the storage unit 1240 may be GID information generated by the electronic device 1200, or may be GID information obtained from other devices, such as other user equipment or network side devices.
根据本公开的实施例,如图12所示,电子设备1200还可以包括确定单元1230,用于确定存储单元1240中是否存储了与发送请求信息的其它设备将要执行的功能相匹配的GID信息。According to an embodiment of the present disclosure, as shown in FIG. 12, the electronic device 1200 may further include a determining unit 1230 for determining whether the storage unit 1240 stores in the storage unit 1240 GID information matching the function to be performed by the other device that sends the request information.
根据本公开的实施例,在确定单元1230确定存储单元1240存储了与发送请求信息的其它设备将要执行的功能相匹配的GID信息的情况下,响应信息生成单元1220可以将确定单元1230确定出的匹配的GID信息包括在响应信息中。进一步,在确定单元1230确定存储单元1240没有存储与发送请求信息的其它设备将要执行的功能相匹配的GID信息的情况下,响应信息生成单元1220可以将表示没有存储与发送请求信息的其它设备将要执行的功能相匹配的GID信息的信息包括在响应信息中。可选地,在确定单元1230确定存储单元1240没有存储与发送请求信息的其它设备将要执行的功能相匹配的GID信息的情况下,电子设备1200也可以不向其它设备发送任何信息。According to an embodiment of the present disclosure, in a case where the determining unit 1230 determines that the storage unit 1240 stores GID information that matches the function to be performed by the other device that sends the request information, the response information generating unit 1220 may determine the information determined by the determining unit 1230 The matched GID information is included in the response information. Further, in a case where the determining unit 1230 determines that the storage unit 1240 does not store GID information that matches the function to be performed by the other device that sends the request information, the response information generating unit 1220 may indicate that the other device that does not store and send the request information will The information of the GID information that matches the executed function is included in the response information. Optionally, when the determining unit 1230 determines that the storage unit 1240 does not store GID information matching the function to be performed by the other device that sends the request information, the electronic device 1200 may not send any information to the other device.
根据本公开的实施例,在GID信息中包括的位置信息与其它设备的当前位置相匹配、GID信息中包括的时间信息与当前时间相匹配,并且GID信息中包括的类型信息与其它设备将要执行的功能的类型相匹配的 情况下,确定单元1230可以确定GID信息与其它设备将要执行的功能相匹配。According to an embodiment of the present disclosure, the location information included in the GID information matches the current location of other devices, the time information included in the GID information matches the current time, and the type information included in the GID information matches the other device's If the types of functions match, the determining unit 1230 may determine that the GID information matches the functions to be performed by other devices.
根据本公开的实施例,在生成GID信息的位置与其它设备的当前位置的距离小于距离阈值的情况下,确定单元1230可以确定GID信息中包括的位置信息与其它设备的当前位置相匹配。According to an embodiment of the present disclosure, in a case where the distance between the location where the GID information is generated and the current location of the other device is less than the distance threshold, the determining unit 1230 may determine that the location information included in the GID information matches the current location of the other device.
根据本公开的实施例,确定单元1230可以根据其它设备将要执行的功能的类型确定距离阈值。According to an embodiment of the present disclosure, the determining unit 1230 may determine the distance threshold according to the type of function to be performed by other devices.
根据本公开的实施例,GID信息中包括的时间信息还可以包括GID信息针对的目标设备的运行周期。进一步,在生成GID信息的时间与当前时间的差值为运行周期的整数倍的情况下,确定单元1230可以确定GID信息中包括的时间信息与当前时间相匹配。According to an embodiment of the present disclosure, the time information included in the GID information may also include the operating cycle of the target device targeted by the GID information. Further, in the case where the difference between the time when the GID information is generated and the current time is an integer multiple of the operating period, the determining unit 1230 may determine that the time information included in the GID information matches the current time.
根据本公开的实施例,在GID信息针对的功能的类型与其它设备将要执行的功能的类型相同的情况下,确定单元1230可以确定GID信息中包括的类型信息与其它设备将要执行的功能的类型相匹配。According to an embodiment of the present disclosure, in the case that the type of the function targeted by the GID information is the same as the type of the function to be performed by other devices, the determining unit 1230 may determine the type information included in the GID information and the type of the function to be performed by the other device Match.
如上所述,确定单元1230可以确定存储单元1240中存储的GID信息是否与发送请求信息的用户设备将要执行的功能相匹配。这里,确定单元1230确定GID信息是否匹配的方式可以与前文中所述的确定单元310确定GID信息是否匹配的方式相同,在此不再赘述。As described above, the determining unit 1230 can determine whether the GID information stored in the storage unit 1240 matches the function to be performed by the user equipment that sends the request information. Here, the manner in which the determining unit 1230 determines whether the GID information matches or not may be the same as the manner in which the determining unit 310 determines whether the GID information matches or not, and will not be repeated here.
根据本公开的实施例,存储单元1240中存储的GID信息中的数据信息可以包括GID信息针对的目标设备、数据信息的属性和数据信息的值。存储单元1240中存储的GID信息中的时间信息还可以包括目标设备的运行周期。According to an embodiment of the present disclosure, the data information in the GID information stored in the storage unit 1240 may include the target device targeted by the GID information, the attribute of the data information, and the value of the data information. The time information in the GID information stored in the storage unit 1240 may also include the operating period of the target device.
如上所述,根据本公开的实施例的用户设备可以生成并向其它设备发送用于请求GID信息的请求信息,也可以从其它用户设备接收用于请求GID信息的请求信息,因此用户设备可以具备电子设备300的结构,也可以具备电子设备1200的结构。也就是说,根据本公开的用户设备可以具备确定单元310、存储单元320、请求生成单元330、通信单元340和响应信息生成单元1220。可选地,根据本公开的用户设备还可以具备处理单元350、GID信息生成单元360、决策单元370中的一个或多个单元。由于电子设备1200中的确定单元1230、存储单元1240和通信单元1210分别与电子设备300中的确定单元310、存储单元320和通信单元340实现的功能相同,因此用户设备可以只具备确定单元310、存储单元 320和通信单元340,而无需具备确定单元1230、存储单元1240和通信单元1210。As described above, the user equipment according to the embodiments of the present disclosure can generate and send request information for requesting GID information to other devices, and can also receive request information for requesting GID information from other user equipment, so the user equipment can have The structure of the electronic device 300 may also include the structure of the electronic device 1200. That is, the user equipment according to the present disclosure may be provided with a determination unit 310, a storage unit 320, a request generation unit 330, a communication unit 340, and a response information generation unit 1220. Optionally, the user equipment according to the present disclosure may also be provided with one or more of the processing unit 350, the GID information generating unit 360, and the decision unit 370. Since the determining unit 1230, storage unit 1240, and communication unit 1210 in the electronic device 1200 implement the same functions as the determining unit 310, storage unit 320, and communication unit 340 in the electronic device 300, the user equipment may only have the determining unit 310, The storage unit 320 and the communication unit 340 do not need to have the determination unit 1230, the storage unit 1240, and the communication unit 1210.
图13是示出根据本公开的实施例的无线通信系统中的电子设备1300的结构的框图。这里,电子设备1300可以是接收用于请求GID信息的请求信息的电子设备,例如无线通信系统中的网络侧设备,该网络侧设备可以位于卫星设备上或位于地面设备上。FIG. 13 is a block diagram showing the structure of an electronic device 1300 in a wireless communication system according to an embodiment of the present disclosure. Here, the electronic device 1300 may be an electronic device that receives request information for requesting GID information, such as a network side device in a wireless communication system, and the network side device may be located on a satellite device or a ground device.
如图13所示,电子设备1300可以包括通信单元1310和响应信息生成单元1320。可选地,电子设备1300还可以包括确定单元1330和存储单元1340。As shown in FIG. 13, the electronic device 1300 may include a communication unit 1310 and a response information generating unit 1320. Optionally, the electronic device 1300 may further include a determining unit 1330 and a storage unit 1340.
这里,电子设备1300的各个单元都可以包括在处理电路中。需要说明的是,电子设备1300既可以包括一个处理电路,也可以包括多个处理电路。进一步,处理电路可以包括各种分立的功能单元以执行各种不同的功能和/或操作。需要说明的是,这些功能单元可以是物理网元或逻辑网元,并且不同称谓的单元可能由同一个物理网元实现。Here, each unit of the electronic device 1300 may be included in the processing circuit. It should be noted that the electronic device 1300 may include one processing circuit or multiple processing circuits. Further, the processing circuit may include various discrete functional units to perform various different functions and/or operations. It should be noted that these functional units may be physical network elements or logical network elements, and units with different titles may be implemented by the same physical network element.
根据本公开的实施例,通信单元1310、响应信息生成单元1320、确定单元1330和存储单元1340分别与前文中所述的通信单元1210、响应信息生成单元1220、确定单元1230和存储单元1240具备相同的功能和结构,在此不再赘述,仅描述与前文中的实施例不同的地方。According to an embodiment of the present disclosure, the communication unit 1310, the response information generation unit 1320, the determination unit 1330, and the storage unit 1340 are respectively the same as the communication unit 1210, response information generation unit 1220, determination unit 1230, and storage unit 1240 described above. The function and structure of is not repeated here, and only the differences from the previous embodiment are described.
根据本公开的实施例,其它设备可以是电子设备1300服务范围内的用户设备,也就是说,电子设备1300可以从其服务的用户设备接收请求信息。According to an embodiment of the present disclosure, the other device may be a user device within the service range of the electronic device 1300, that is, the electronic device 1300 may receive request information from the user device it serves.
根据本公开的实施例,电子设备1300可以是非透明的网络侧设备,即具备数据处理能力的网络侧设备。在这种情况下,电子设备1300在接收到请求信息之后,可以通过确定单元1330确定存储单元1340中是否存储了与发送请求信息的用户设备将要执行的功能相匹配的GID信息。可选地,电子设备1300也可以是透明的网络侧设备,即不具备数据处理能力的网络侧设备。在这种情况下,电子设备1300可以通过通信单元1310向电子设备1300能够访问的DC转发请求信息。进一步,电子设备1300还可以通过通信单元1310从DC接收包括与其它设备将要执行的功能相匹配的GID信息的响应信息。也就是说,由电子设备1300能够访问的DC执行确定是否有匹配的GID信息的功能,电子设备1300仅仅执行转发的功能。According to an embodiment of the present disclosure, the electronic device 1300 may be a non-transparent network-side device, that is, a network-side device with data processing capabilities. In this case, after receiving the request information, the electronic device 1300 may determine through the determining unit 1330 whether the storage unit 1340 stores GID information that matches the function to be performed by the user equipment sending the request information. Optionally, the electronic device 1300 may also be a transparent network-side device, that is, a network-side device that does not have data processing capabilities. In this case, the electronic device 1300 may forward the request information to a DC accessible by the electronic device 1300 through the communication unit 1310. Further, the electronic device 1300 may also receive response information including GID information matching the function to be performed by other devices from DC through the communication unit 1310. That is, the DC accessible by the electronic device 1300 performs the function of determining whether there is matching GID information, and the electronic device 1300 only performs the function of forwarding.
根据本公开的实施例,电子设备1300可以向其服务的全部或者部分用户设备发送用于请求上报GID信息的上报请求信息。根据本公开的实施例,电子设备1300可以根据用户设备的当前状态来确定请求哪些用户设备上报GID信息。例如,电子设备1300可以请求那些处于空闲模式的用户设备上报GID信息。可选地,电子设备1300也可以根据用户设备的位置信息来确定请求哪些用户设备上报GID信息。例如,电子设备1300在接收到来自用户设备的用于请求与将要执行的功能相匹配的GID信息的情况下,如果确定单元1330确定存储单元1340中没有存储所需的GID信息,电子设备1300可以向地理位置与发送请求信息的用户设备比较接近的那些用户设备发送上报请求信息。According to an embodiment of the present disclosure, the electronic device 1300 may send report request information for requesting to report GID information to all or part of the user equipment it serves. According to an embodiment of the present disclosure, the electronic device 1300 may determine which user equipment is requested to report GID information according to the current state of the user equipment. For example, the electronic device 1300 may request those user equipments in idle mode to report GID information. Optionally, the electronic device 1300 may also determine which user equipment is requested to report GID information according to the location information of the user equipment. For example, when the electronic device 1300 receives GID information from the user equipment for requesting matching with the function to be executed, if the determining unit 1330 determines that the storage unit 1340 does not store the required GID information, the electronic device 1300 may Send the report request information to those user equipment whose geographic location is closer to the user equipment that sent the request information.
根据本公开的实施例,上报请求信息可以包括功能类型信息,以使得接收到上报请求信息的用户设备将与功能类型信息相匹配的GID信息发送至电子设备1300。According to an embodiment of the present disclosure, the report request information may include function type information, so that the user equipment that receives the report request information transmits GID information matching the function type information to the electronic device 1300.
由此可见,根据本公开的实施例,电子设备1300可以触发其服务的用户设备上报GID信息,以使得电子设备1300存储的GID信息更加全面。尤其是在电子设备1300确定存储单元1340中存储的GID信息不全的情况下,电子设备1300可以请求其服务的用户设备上报GID信息。It can be seen that, according to the embodiments of the present disclosure, the electronic device 1300 can trigger the user equipment it serves to report GID information, so that the GID information stored by the electronic device 1300 is more comprehensive. Especially when the electronic device 1300 determines that the GID information stored in the storage unit 1340 is incomplete, the electronic device 1300 may request the user equipment of its service to report the GID information.
如上所述,根据本公开的实施例的网络侧设备可以生成并向数据中心发送用于请求GID信息的请求信息,也可以从用户设备接收用于请求GID信息的请求信息,因此网络侧设备可以具备电子设备600的结构,也可以具备电子设备1300的结构。也就是说,根据本公开的网络侧设备可以具备确定单元610、存储单元620、请求生成单元630、通信单元640、处理单元650和响应信息生成单元1320。可选地,根据本公开的用户设备还可以具备GID信息生成单元660。由于电子设备1300中的确定单元1330、存储单元1340和通信单元1310分别与电子设备600中的确定单元610、存储单元620和通信单元640实现的功能相同,因此网络侧设备可以只具备确定单元610、存储单元620和通信单元640,而无需具备确定单元1330、存储单元1340和通信单元1310。As described above, the network-side device according to the embodiment of the present disclosure can generate and send request information for requesting GID information to the data center, and can also receive request information for requesting GID information from the user device, so the network-side device can The structure provided with the electronic device 600 may also be provided with the structure of the electronic device 1300. That is, the network-side device according to the present disclosure may be provided with a determination unit 610, a storage unit 620, a request generation unit 630, a communication unit 640, a processing unit 650, and a response information generation unit 1320. Optionally, the user equipment according to the present disclosure may also be provided with a GID information generating unit 660. Since the determining unit 1330, the storage unit 1340, and the communication unit 1310 in the electronic device 1300 implement the same functions as the determining unit 610, the storage unit 620, and the communication unit 640 in the electronic device 600, the network side device may only have the determining unit 610. , The storage unit 620 and the communication unit 640, without the determination unit 1330, the storage unit 1340, and the communication unit 1310.
图14是示出根据本公开的实施例的无线通信系统中的电子设备1400的结构的框图。这里,电子设备1400可以是接收用于请求GID信息的请求信息的电子设备,例如无线通信系统中的数据中心。FIG. 14 is a block diagram showing the structure of an electronic device 1400 in a wireless communication system according to an embodiment of the present disclosure. Here, the electronic device 1400 may be an electronic device that receives request information for requesting GID information, such as a data center in a wireless communication system.
如图14所示,电子设备1400可以包括通信单元1410和响应信息生成单元1420。可选地,电子设备1400还可以包括确定单元1430和存储 单元1440。As shown in FIG. 14, the electronic device 1400 may include a communication unit 1410 and a response information generating unit 1420. Optionally, the electronic device 1400 may further include a determining unit 1430 and a storage unit 1440.
这里,电子设备1400的各个单元都可以包括在处理电路中。需要说明的是,电子设备1400既可以包括一个处理电路,也可以包括多个处理电路。进一步,处理电路可以包括各种分立的功能单元以执行各种不同的功能和/或操作。需要说明的是,这些功能单元可以是物理网元或逻辑网元,并且不同称谓的单元可能由同一个物理网元实现。Here, each unit of the electronic device 1400 may be included in the processing circuit. It should be noted that the electronic device 1400 may include one processing circuit or multiple processing circuits. Further, the processing circuit may include various discrete functional units to perform various different functions and/or operations. It should be noted that these functional units may be physical network elements or logical network elements, and units with different titles may be implemented by the same physical network element.
根据本公开的实施例,通信单元1410、响应信息生成单元1420、确定单元1430和存储单元1440分别与前文中所述的通信单元1210、响应信息生成单元1220、确定单元1230和存储单元1240具备相同的功能和结构,在此不再赘述,仅描述与前文中的实施例不同的地方。According to the embodiment of the present disclosure, the communication unit 1410, the response information generation unit 1420, the determination unit 1430, and the storage unit 1440 are respectively the same as the communication unit 1210, response information generation unit 1220, determination unit 1230, and storage unit 1240 described above. The function and structure of is not repeated here, and only the differences from the previous embodiment are described.
根据本公开的实施例,其它设备可以是能够访问电子设备1400的网络侧设备,也就是说,电子设备1400可以从网络侧设备接收请求信息。这里,网络侧设备可以位于卫星设备上或位于地面设备上。According to an embodiment of the present disclosure, the other device may be a network-side device that can access the electronic device 1400, that is, the electronic device 1400 may receive request information from the network-side device. Here, the network side equipment can be located on the satellite equipment or on the ground equipment.
根据本公开的实施例,电子设备1400可以向能够访问电子设备1400的全部或者部分网络侧设备发送用于请求上报GID信息的上报请求信息。这里,电子设备1400在接收到来自网络侧设备的用于请求与将要执行的功能相匹配的GID信息的情况下,如果确定单元1430确定存储单元1440中没有存储所需的GID信息,电子设备1400可以向根据发送请求信息的网络侧设备将要执行的功能来确定向哪些网络侧设备发送上报请求信息。例如,网络侧设备将要执行的功能是频率使用,而电子设备1400发现其知晓网络侧设备A和网络侧设备B的频率,而不知晓网络侧设备C和网络侧设备D的频率,则电子设备1400可以向网络侧设备C和网络侧设备D发送上报请求信息。According to an embodiment of the present disclosure, the electronic device 1400 may send report request information for requesting to report GID information to all or part of the network side devices that can access the electronic device 1400. Here, when the electronic device 1400 receives the GID information from the network side device for requesting matching with the function to be executed, if the determining unit 1430 determines that the storage unit 1440 does not store the required GID information, the electronic device 1400 It is possible to determine which network side device to send the report request information to according to the function to be performed by the network side device that sends the request information. For example, the function to be performed by the network side device is frequency usage, and the electronic device 1400 finds that it knows the frequencies of the network side device A and the network side device B, but does not know the frequencies of the network side device C and the network side device D, the electronic device 1400 may send report request information to the network side device C and the network side device D.
根据本公开的实施例,上报请求信息可以包括功能类型信息,以使得接收到上报请求信息的网络侧设备将与功能类型信息相匹配的GID信息发送至电子设备1400。According to an embodiment of the present disclosure, the reporting request information may include function type information, so that the network-side device that receives the reporting request information sends GID information matching the function type information to the electronic device 1400.
根据本公开的实施例,电子设备1400也可以通过能够访问电子设备1400的透明网络侧设备向该透明网络侧设备服务范围内的用户设备发送用于请求上报GID信息的上报请求信息。根据本公开的实施例,电子设备1400可以根据用户设备的当前状态来确定请求哪些用户设备上报GID信息。例如,电子设备1400可以请求那些处于空闲模式的用户设备上报GID信息。可选地,电子设备1400也可以根据用户设备的位置信息来确 定请求哪些用户设备上报GID信息。例如,电子设备1400在通过透明网络侧设备接收到来自用户设备的用于请求与将要执行的功能相匹配的GID信息的情况下,如果确定单元1430确定存储单元1440中没有存储所需的GID信息,电子设备1400可以通过透明网络侧设备向地理位置与发送请求信息的用户设备比较接近的那些用户设备发送上报请求信息。According to an embodiment of the present disclosure, the electronic device 1400 may also send report request information for requesting to report GID information to the user equipment within the service range of the transparent network side device through a transparent network side device that can access the electronic device 1400. According to an embodiment of the present disclosure, the electronic device 1400 may determine which user equipment is requested to report GID information according to the current state of the user equipment. For example, the electronic device 1400 may request those user equipment in idle mode to report GID information. Optionally, the electronic device 1400 may also determine which user equipment is requested to report GID information according to the location information of the user equipment. For example, when the electronic device 1400 receives the GID information from the user equipment for requesting matching with the function to be executed through the transparent network side device, if the determining unit 1430 determines that the storage unit 1440 does not store the required GID information The electronic device 1400 may send the report request information to those user equipment whose geographic location is closer to the user equipment sending the request information through the transparent network side device.
由此可见,根据本公开的实施例,电子设备1400可以触发网络侧设备或者用户设备上报GID信息,以使得电子设备1400存储的GID信息更加全面。尤其是在电子设备1400确定存储单元1440中存储的GID信息不全的情况下,电子设备1400可以请求网络侧设备或用户设备上报GID信息。It can be seen that, according to the embodiments of the present disclosure, the electronic device 1400 can trigger the network side device or the user equipment to report GID information, so that the GID information stored by the electronic device 1400 is more comprehensive. Especially when the electronic device 1400 determines that the GID information stored in the storage unit 1440 is incomplete, the electronic device 1400 may request the network side device or the user equipment to report the GID information.
<4.方法实施例><4. Method embodiment>
接下来将详细描述根据本公开实施例的由发送用于请求GID信息的请求信息的电子设备(即电子设备300或电子设备600)执行的无线通信方法。Next, a wireless communication method executed by an electronic device (ie, electronic device 300 or electronic device 600) that transmits request information for requesting GID information according to an embodiment of the present disclosure will be described in detail.
图15是示出根据本公开的实施例的由发送用于请求GID信息的请求信息的电子设备执行的无线通信方法的流程图。15 is a flowchart showing a wireless communication method performed by an electronic device that transmits request information for requesting GID information according to an embodiment of the present disclosure.
如图15所示,在步骤S1510中,确定是否存储了与将要执行的功能相匹配的地理信息数据库GID信息,GID信息包括与将要执行的功能相关联的数据。As shown in FIG. 15, in step S1510, it is determined whether the geographic information database GID information that matches the function to be executed is stored, and the GID information includes data associated with the function to be executed.
接下来,在步骤S1520中,在没有存储与将要执行的功能相匹配的GID信息的情况下,生成用于请求与将要执行的功能相匹配的GID信息的请求信息。Next, in step S1520, if GID information matching the function to be executed is not stored, request information for requesting GID information matching the function to be executed is generated.
接下来,在步骤S1530中,将请求信息发送至其它设备。Next, in step S1530, the request information is sent to other devices.
接下来,在步骤S1540中,根据请求的结果来执行所述将要执行的功能。Next, in step S1540, the function to be executed is executed according to the result of the request.
这里,GID信息包括位置信息、时间信息、类型信息和数据信息,位置信息包括生成GID信息的位置、时间信息包括生成GID信息的时间、类型信息包括GID信息针对的功能的类型,数据信息包括执行功能的过程中生成的数据。Here, the GID information includes location information, time information, type information, and data information. The location information includes the location where the GID information is generated, the time information includes the time when the GID information is generated, and the type information includes the type of function targeted by the GID information. The data information includes the execution Data generated during the function.
优选地,无线通信方法还包括:在GID信息中包括的位置信息与电子设备的当前位置相匹配、GID信息中包括的时间信息与当前时间相匹 配,并且GID信息中包括的类型信息与将要执行的功能的类型相匹配的情况下,确定GID信息与将要执行的功能相匹配。Preferably, the wireless communication method further includes: the location information included in the GID information matches the current location of the electronic device, the time information included in the GID information matches the current time, and the type information included in the GID information matches the current location of the electronic device. If the type of the function matches, make sure that the GID information matches the function to be executed.
优选地,无线通信方法还包括:在生成GID信息的位置与电子设备的当前位置的距离小于距离阈值的情况下,确定GID信息中包括的位置信息与电子设备的当前位置相匹配。Preferably, the wireless communication method further includes: determining that the location information included in the GID information matches the current location of the electronic device when the distance between the location where the GID information is generated and the current location of the electronic device is less than a distance threshold.
优选地,无线通信方法还包括:根据将要执行的功能的类型确定距离阈值。Preferably, the wireless communication method further includes: determining a distance threshold according to the type of function to be performed.
优选地,时间信息还包括GID信息针对的目标设备的运行周期,并且其中,无线通信方法还包括:在生成GID信息的时间与当前时间的差值为运行周期的整数倍的情况下,确定GID信息中包括的时间信息与当前时间相匹配。Preferably, the time information further includes the operating period of the target device targeted by the GID information, and wherein the wireless communication method further includes: determining the GID when the difference between the time when the GID information is generated and the current time is an integer multiple of the operating period The time information included in the information matches the current time.
优选地,无线通信方法还包括:在GID信息针对的功能的类型与将要执行的功能的类型相同的情况下,确定GID信息中包括的类型信息与将要执行的功能的类型相匹配。Preferably, the wireless communication method further includes: determining that the type information included in the GID information matches the type of the function to be performed when the type of the function targeted by the GID information is the same as the type of the function to be performed.
优选地,请求信息包括电子设备的当前位置、当前时间和将要执行的功能的类型。Preferably, the request information includes the current location of the electronic device, the current time, and the type of function to be executed.
优选地,无线通信方法还包括:在存储了与将要执行的功能相匹配的GID信息的情况下,利用与将要执行的功能相匹配的GID信息中包括的数据信息执行功能。Preferably, the wireless communication method further includes: in a case where GID information matching the function to be executed is stored, performing the function using data information included in the GID information matching the function to be executed.
优选地,无线通信方法还包括:从其它设备接收包括与将要执行的功能相匹配的GID信息的响应信息;以及利用与将要执行的功能相匹配的GID信息中包括的数据信息执行功能。Preferably, the wireless communication method further includes: receiving response information including GID information matching the function to be performed from other devices; and performing the function using data information included in the GID information matching the function to be performed.
优选地,无线通信方法还包括:存储从其它设备接收的与将要执行的功能相匹配的GID信息。Preferably, the wireless communication method further includes: storing GID information received from other devices that matches the function to be executed.
优选地,无线通信方法还包括:在没有存储与将要执行的功能相匹配的GID信息、并且没有从其它设备获取与将要执行的功能相匹配的GID信息的情况下,在执行功能之后,生成GID信息,并且其中,GID信息中的位置信息包括电子设备当前的位置,GID信息中的时间信息包括当前时间,GID信息中的类型信息包括功能的类型,并利用执行功能的过程中生成的数据确定GID信息中的数据信息。Preferably, the wireless communication method further includes: in the case that GID information matching the function to be executed is not stored, and GID information matching the function to be executed is not obtained from other devices, generating GID after the function is executed Information, and where the location information in the GID information includes the current location of the electronic device, the time information in the GID information includes the current time, and the type information in the GID information includes the type of function, which is determined by the data generated in the process of executing the function Data information in GID information.
优选地,数据信息包括GID信息针对的目标设备、数据信息的属性 和数据信息的值。Preferably, the data information includes the target device targeted by the GID information, the attribute of the data information, and the value of the data information.
优选地,时间信息还包括目标设备的运行周期。Preferably, the time information also includes the operating period of the target device.
优选地,无线通信方法还包括:存储生成的GID信息和/或将所生成的GID信息发送至数据中心。Preferably, the wireless communication method further includes: storing the generated GID information and/or sending the generated GID information to the data center.
优选地,电子设备包括用户设备,并且其它设备包括用户设备周围的其它用户设备。Preferably, the electronic equipment includes a user equipment, and the other equipment includes other user equipment around the user equipment.
优选地,发送请求信息包括:向其它用户设备广播发送请求信息。Preferably, sending the request information includes: broadcasting the sending request information to other user equipment.
优选地,电子设备包括用户设备,并且其它设备包括为用户设备提供服务的网络侧设备。Preferably, the electronic equipment includes a user equipment, and the other equipment includes a network side device that provides services for the user equipment.
优选地,电子设备包括网络侧设备,并且其它设备包括网络侧设备能够访问的数据中心。Preferably, the electronic device includes a network-side device, and the other devices include a data center accessible by the network-side device.
优选地,网络侧设备位于卫星设备上或位于地面设备上。Preferably, the network side equipment is located on the satellite equipment or on the ground equipment.
根据本公开的实施例,执行上述方法的主体可以是根据本公开的实施例的电子设备300或电子设备600,因此前文中关于电子设备300或电子设备600的全部实施例均适用于此。According to an embodiment of the present disclosure, the subject that executes the above method may be the electronic device 300 or the electronic device 600 according to the embodiment of the present disclosure, so all the foregoing embodiments regarding the electronic device 300 or the electronic device 600 are applicable to this.
接下来将详细描述根据本公开实施例的由无线通信系统中的接收用于请求GID信息的请求信息的电子设备(即电子设备1200、电子设备1300或电子设备1400)执行的无线通信方法。Next, a wireless communication method executed by an electronic device (ie, electronic device 1200, electronic device 1300, or electronic device 1400) that receives request information for requesting GID information in a wireless communication system according to an embodiment of the present disclosure will be described in detail.
图16是示出根据本公开的实施例的由无线通信系统中的接收用于请求GID信息的请求信息的电子设备执行的无线通信方法的流程图。FIG. 16 is a flowchart illustrating a wireless communication method performed by an electronic device receiving request information for requesting GID information in a wireless communication system according to an embodiment of the present disclosure.
如图16所示,在步骤S1610中,从其它设备接收用于请求与其它设备将要执行的功能相匹配的地理信息数据库GID信息的请求信息,GID信息包括与其它设备将要执行的功能相关联的数据。As shown in FIG. 16, in step S1610, request information for requesting GID information of a geographic information database that matches the function to be performed by the other device is received from the other device. The GID information includes information associated with the function to be performed by the other device. data.
接下来,在步骤S1620中,向其它设备发送包括与其它设备将要执行的功能相匹配的GID信息的响应信息以用于其它设备执行将要执行的功能。Next, in step S1620, response information including GID information matching the function to be executed by the other device is sent to the other device for the other device to perform the function to be executed.
这里,GID信息包括位置信息、时间信息、类型信息和数据信息,位置信息包括生成GID信息的位置、时间信息包括生成GID信息的时间、类型信息包括GID信息针对的功能的类型,数据信息包括执行所述功能的过程中生成的数据。Here, the GID information includes location information, time information, type information, and data information. The location information includes the location where the GID information is generated, the time information includes the time when the GID information is generated, and the type information includes the type of function targeted by the GID information. The data information includes the execution Data generated during the process of the function.
优选地,请求信息包括其它设备的当前位置、当前时间和其它设备将要执行的功能的类型。Preferably, the request information includes the current location of the other device, the current time, and the type of function to be performed by the other device.
优选地,无线通信方法还包括:确定是否存储有与其它设备将要执行的功能相匹配的地理信息数据库GID信息,并且其中,在GID信息中包括的位置信息与其它设备的当前位置相匹配、GID信息中包括的时间信息与当前时间相匹配,并且GID信息中包括的类型信息与其它设备将要执行的功能的类型相匹配的情况下,确定GID信息与其它设备将要执行的功能相匹配。Preferably, the wireless communication method further includes: determining whether the geographic information database GID information that matches the function to be performed by the other device is stored, and wherein the location information included in the GID information matches the current location of the other device. When the time information included in the information matches the current time, and the type information included in the GID information matches the type of the function to be performed by the other device, it is determined that the GID information matches the function to be performed by the other device.
优选地,无线通信方法还包括:在生成GID信息的位置与其它设备的当前位置的距离小于距离阈值的情况下,确定GID信息中包括的位置信息与其它设备的当前位置相匹配。Preferably, the wireless communication method further includes: determining that the location information included in the GID information matches the current location of the other device when the distance between the location where the GID information is generated and the current location of the other device is less than a distance threshold.
优选地,无线通信方法还包括:根据其它设备将要执行的功能的类型确定距离阈值。Preferably, the wireless communication method further includes: determining the distance threshold according to the type of function to be performed by the other device.
优选地,时间信息还包括GID信息针对的目标设备的运行周期,并且其中,无线通信方法还包括:在生成GID信息的时间与当前时间的差值为运行周期的整数倍的情况下,确定GID信息中包括的时间信息与当前时间相匹配。Preferably, the time information further includes the operating period of the target device targeted by the GID information, and wherein the wireless communication method further includes: determining the GID when the difference between the time when the GID information is generated and the current time is an integer multiple of the operating period The time information included in the information matches the current time.
优选地,无线通信方法还包括:在GID信息针对的功能的类型与其它设备将要执行的功能的类型相同的情况下,确定GID信息中包括的类型信息与其它设备将要执行的功能的类型相匹配。Preferably, the wireless communication method further includes: determining that the type information included in the GID information matches the type of the function to be performed by the other device when the type of the function targeted by the GID information is the same as the type of the function to be performed by the other device .
优选地,数据信息包括GID信息针对的目标设备、数据信息的属性和所述数据信息的值。Preferably, the data information includes the target device targeted by the GID information, the attribute of the data information, and the value of the data information.
优选地,时间信息还包括目标设备的运行周期。Preferably, the time information also includes the operating period of the target device.
优选地,电子设备包括用户设备,并且其它设备包括用户设备周围的其它用户设备。Preferably, the electronic equipment includes a user equipment, and the other equipment includes other user equipment around the user equipment.
优选地,其它设备包括用户设备,并且电子设备包括为用户设备提供服务的网络侧设备。Preferably, the other devices include user equipment, and the electronic device includes a network side device that provides services for the user equipment.
优选地,无线通信方法还包括:向数据中心转发所述请求信息;以及从数据中心接收包括与其它设备将要执行的功能相匹配的GID信息的响应信息。Preferably, the wireless communication method further includes: forwarding the request information to a data center; and receiving response information including GID information matching the function to be performed by other devices from the data center.
优选地,其它设备包括网络侧设备,并且电子设备包括网络侧设备 能够访问的数据中心。Preferably, the other equipment includes a network-side equipment, and the electronic equipment includes a data center accessible by the network-side equipment.
优选地,网络侧设备位于卫星设备上或位于地面设备上。Preferably, the network side equipment is located on the satellite equipment or on the ground equipment.
根据本公开的实施例,执行上述方法的主体可以是根据本公开的实施例的电子设备1200、电子设备1300或电子设备1400,因此前文中关于电子设备1200、电子设备1300或电子设备1400的全部实施例均适用于此。According to the embodiment of the present disclosure, the subject that executes the above method may be the electronic device 1200, the electronic device 1300, or the electronic device 1400 according to the embodiment of the present disclosure. Therefore, all of the electronic device 1200, the electronic device 1300, or the electronic device 1400 in the foregoing The embodiments are all applicable to this.
<5.应用示例><5. Application example>
本公开的实施例可以用于无线通信系统中的各个通信过程(或者功能)中,尤其可以用于执行功能所需的信息与地理位置关联性较强的功能。例如,对于NTN网络,由于卫星设备的运动具有周期性,因此在时间能够匹配的情况下,在相同或相近的地理位置执行特定功能所需的参数是相同的。此外,本公开的实施例还可以用于TN网络的毫米波通信系统中,这是因为在毫米波通信系统中的执行功能所需的信息也与地理位置关联性较强。The embodiments of the present disclosure can be used in various communication processes (or functions) in a wireless communication system, and in particular, can be used in functions where the information required to perform the function is highly correlated with the geographic location. For example, for the NTN network, due to the periodic movement of the satellite equipment, the parameters required to perform a specific function in the same or similar geographic location are the same if the time can be matched. In addition, the embodiments of the present disclosure can also be used in the millimeter wave communication system of the TN network, because the information required to perform functions in the millimeter wave communication system is also strongly related to the geographic location.
例如,针对类型为同步信号检测的功能,用户设备在执行这个功能的过程中,可以在多个(例如4个)时频位置采用多种(例如168)m序列(m-sequence)的偏移组合尝试解码SSS(Secondary Synchronization Signal,辅同步信号),直至成功解码SSS。接下来,用户设备可以根据SSS的时频位置确定小区的工作模式(TDD或FDD)和CP配置(正常CP或扩展CP),还可以根据SSS的m序列的偏移组合获得小区组的标识N
ID
(1),从而能够根据小区组的标识N
ID
(1)以及组内标识N
ID
(2)确定小区的PCI(Physical Cell Identifier,物理小区标识)。根据本公开的实施例,用户设备在执行完上述功能之后,可以生成GID信息,其中位置信息为用户设备生成该GID信息的位置,时间信息包括用户设备生成该GID信息的时间,类型信息为同步信号检测,数据信息包括属性“工作模式”、与属性“工作模式”相对应的值,属性“CP配置”、与属性“CP配置”相对应的值,属性“小区组标识”、以及与属性“小区组标识”相对应的值等。这样一来,在该用户设备或者其它用户设备在相同或相近的地点也想执行同步信号检测功能时,能够获取这样的GID信息,从而可以根据GID信息中的与属性“工作模式”相对应的值和与属性“CP配置”相对应的值直接确定SSS的时频位置,并可以根据GID信息中的与属性“小区组标识”相对应的值直接确定m序列的偏移组合。由此,省略了在多个时频位置采用多种m序列的偏移组合尝试解码SSS的过程,大大减少了盲 检的时间,加快同步过程。
For example, for the function of synchronization signal detection, the user equipment may adopt multiple (for example, 168) m-sequence offsets at multiple (for example, 4) time-frequency positions in the process of performing this function. The combination attempts to decode SSS (Secondary Synchronization Signal) until the SSS is successfully decoded. Next, the user equipment can determine the working mode (TDD or FDD) and CP configuration (normal CP or extended CP) of the cell according to the time-frequency position of the SSS, and can also obtain the cell group identity N according to the offset combination of the m sequence of the SSS. ID (1), it is possible to determine the cell PCI (physical cell identifier, physical cell identity) according to the identifier N ID (1) and the group ID N ID (2) cell group. According to the embodiments of the present disclosure, the user equipment can generate GID information after performing the above functions, where the location information is the location where the user equipment generates the GID information, the time information includes the time when the user equipment generates the GID information, and the type information is synchronization Signal detection, data information includes the attribute "working mode", the value corresponding to the attribute "working mode", the attribute "CP configuration", the value corresponding to the attribute "CP configuration", the attribute "cell group identification", and the attribute The value corresponding to the "cell group ID", etc. In this way, when the user equipment or other user equipment also wants to perform the synchronization signal detection function in the same or close location, such GID information can be obtained, so that the GID information can be based on the attribute "working mode" corresponding to The value and the value corresponding to the attribute "CP configuration" directly determine the time-frequency position of the SSS, and the offset combination of the m sequence can be directly determined according to the value corresponding to the attribute "cell group identifier" in the GID information. As a result, the process of trying to decode the SSS using multiple offset combinations of m-sequences at multiple time-frequency positions is omitted, which greatly reduces the time for blind detection and speeds up the synchronization process.
又如,针对类型为网络接入的功能,用户设备在执行上述功能的过程中,可以通过测量报告或者调度信息确定基站设备的波束角度信息(例如包括基站设备的波束的水平方向和垂直方向信息)。根据本公开的实施例,用户设备在执行完上述功能之后,可以生成GID信息,其中位置信息为用户设备生成该GID信息的位置,时间信息包括用户设备生成该GID信息的时间,类型信息为网络接入,数据信息可以包括属性“波束角度”以及与属性“波束角度”相对应的值。这样一来,在该用户设备或者其它用户设备在相同或相近的地点也想接入网络时,能够获取这样的GID信息,从而可以根据GID信息中的与属性“波束角度”相对应的值直接确定网络侧设备的波束角度信息,从而省略了测量或调度的过程,大大减少了入网的时间,快速与网络侧设备建立通信连接。For another example, for the function of the type of network access, the user equipment can determine the beam angle information of the base station device through the measurement report or scheduling information (for example, including the horizontal and vertical direction information of the beam of the base station device in the process of performing the above function ). According to the embodiments of the present disclosure, the user equipment can generate GID information after performing the above functions, where the location information is the location where the user equipment generates the GID information, the time information includes the time when the user equipment generates the GID information, and the type information is network Access, data information may include the attribute "beam angle" and a value corresponding to the attribute "beam angle". In this way, when the user equipment or other user equipment also wants to access the network at the same or similar location, such GID information can be obtained, so that the value corresponding to the attribute "beam angle" in the GID information can be directly obtained. Determine the beam angle information of the network-side equipment, thereby omitting the measurement or scheduling process, greatly reducing the time for network access, and quickly establishing a communication connection with the network-side equipment.
再如,针对类型为多普勒频移的功能,用户设备在执行上述功能的过程中,需要进行大量的频率扫描以确认卫星设备的频点和多普勒频移值,从而接入该卫星设备。根据本公开的实施例,用户设备在执行完上述功能之后,可以生成GID信息,其中位置信息为用户设备生成该GID信息的位置,时间信息包括用户设备生成该GID信息的时间,类型信息为多普勒频移,数据信息可以包括属性“多普勒频移”以及与属性“多普勒频移”相对应的值。这样一来,在该用户设备或者其它用户设备在相同或相近的地点也想接入该卫星设备时,能够获取这样的GID信息,从而可以根据GID信息中的与属性“多普勒频移”相对应的值直接确定与该卫星设备的多普勒频移值,从而省略了频率扫描的过程,大大减少了入网的时间,快速与卫星设备建立通信连接。For another example, for the type of Doppler shift function, the user equipment needs to perform a large number of frequency scans to confirm the frequency point and Doppler shift value of the satellite equipment in the process of performing the above function, so as to access the satellite equipment. According to an embodiment of the present disclosure, the user equipment can generate GID information after performing the above functions, where the location information is the location where the user equipment generates the GID information, the time information includes the time when the user equipment generates the GID information, and the type information is multiple For the full frequency shift, the data information may include the attribute "Doppler frequency shift" and a value corresponding to the attribute "Doppler frequency shift". In this way, when the user equipment or other user equipment also wants to access the satellite equipment at the same or close location, such GID information can be obtained, so that the "Doppler shift" in the GID information can be The corresponding value directly determines the Doppler frequency shift value of the satellite device, thereby omitting the frequency scanning process, greatly reducing the time of access to the network, and quickly establishing a communication connection with the satellite device.
下面将结合图17来描述根据本公开的实施例的另一个应用。图17是示出根据本公开的实施例的利用GID信息避免频率干扰的场景的示意图。如图17所示,TN网络中包括TN-gNB1和TN-gNB2以及UE(为便于说明,图17仅示出了一个UE),NTN网络中包括NTN-gNB2和NTN-gNB3,所有的gNB都可以与访问数据中心。假定NTN-gNB1是一颗新的卫星设备,它的出现可能会对其周围的现有卫星设备(NTN-gNB2和NTN-gNB3)造成干扰。因此,为了避免潜在的干扰,NTN-gNB1需要知道其附近空间的频率使用情况。在传统方案中,NTN-gNB1可以通过测量或与附近的gNB交换信息来获得频率使用情况,但是由于在三维空间中NTN-gNB1的周围可能有大量的NTN-gNB和TN-gNB,所以需要执行 大量的测量和信息交互过程才能够获取周围所有gNB的频率使用情况。Another application according to an embodiment of the present disclosure will be described below in conjunction with FIG. 17. FIG. 17 is a schematic diagram illustrating a scenario in which GID information is used to avoid frequency interference according to an embodiment of the present disclosure. As shown in Figure 17, the TN network includes TN-gNB1 and TN-gNB2 and UE (for ease of illustration, Figure 17 shows only one UE), and the NTN network includes NTN-gNB2 and NTN-gNB3. All gNBs are Can be accessed with the data center. Assuming that NTN-gNB1 is a new satellite device, its appearance may cause interference to existing satellite devices (NTN-gNB2 and NTN-gNB3) around it. Therefore, in order to avoid potential interference, NTN-gNB1 needs to know the frequency usage of its nearby space. In the traditional scheme, NTN-gNB1 can obtain frequency usage by measuring or exchanging information with nearby gNB, but because there may be a large number of NTN-gNB and TN-gNB around NTN-gNB1 in three-dimensional space, it needs to be implemented A large number of measurements and information exchange processes can obtain the frequency usage of all surrounding gNBs.
根据本公开的实施例,NTN-gNB1可以向数据中心请求GID信息,其中类型信息为频率使用,由此可以很容易获得其周围的所有gNB的频率使用情况,这节省了大量的时间和资源。然后,NTN-gNB1可以选择与附近gNB不同的频谱,或者与附近的gNB进行频率规划以消除干扰。According to the embodiments of the present disclosure, NTN-gNB1 can request GID information from the data center, where the type information is frequency usage, so that the frequency usage of all gNBs around it can be easily obtained, which saves a lot of time and resources. Then, NTN-gNB1 can select a different spectrum from nearby gNB, or perform frequency planning with nearby gNB to eliminate interference.
以上描述了本公开的实施例的应用示例,本公开并不限于此。根据本公开的实施例,可以构建GID来记录在由网元执行一定的功能的过程中所生成的数据或参数,从而实现GID信息的共享,以协助其它网元执行相同或类似的功能。The application examples of the embodiments of the present disclosure are described above, and the present disclosure is not limited thereto. According to the embodiments of the present disclosure, a GID can be constructed to record data or parameters generated during a certain function performed by a network element, so as to realize the sharing of GID information to assist other network elements to perform the same or similar functions.
本公开内容的技术能够应用于各种产品。The technology of the present disclosure can be applied to various products.
网络侧设备可以被实现为任何类型的TRP。该TRP可以具备发送和接收功能,例如可以从用户设备和基站设备接收信息,也可以向用户设备和基站设备发送信息。在典型的示例中,TRP可以为用户设备提供服务,并且受基站设备的控制。进一步,TRP可以具备与如下所述的基站设备类似的结构,也可以仅具备基站设备中与发送和接收信息相关的结构。The network side device can be implemented as any type of TRP. The TRP may have sending and receiving functions, for example, it can receive information from user equipment and base station equipment, and can also send information to user equipment and base station equipment. In a typical example, TRP can provide services for user equipment and is controlled by base station equipment. Further, the TRP may have a structure similar to that of the base station device described below, or may only have a structure related to the transmission and reception of information in the base station device.
网络侧设备也可以被实现为任何类型的基站设备,诸如宏eNB和小eNB,还可以被实现为任何类型的gNB(5G系统中的基站)。小eNB可以为覆盖比宏小区小的小区的eNB,诸如微微eNB、微eNB和家庭(毫微微)eNB。代替地,基站可以被实现为任何其他类型的基站,诸如NodeB和基站收发台(BTS)。基站可以包括:被配置为控制无线通信的主体(也称为基站设备);以及设置在与主体不同的地方的一个或多个远程无线头端(RRH)。The network side equipment can also be implemented as any type of base station equipment, such as a macro eNB and a small eNB, and can also be implemented as any type of gNB (base station in a 5G system). A small eNB may be an eNB that covers a cell smaller than a macro cell, such as a pico eNB, a micro eNB, and a home (femto) eNB. Instead, the base station may be implemented as any other type of base station, such as NodeB and base transceiver station (BTS). The base station may include: a main body (also referred to as a base station device) configured to control wireless communication; and one or more remote radio heads (RRH) arranged in a different place from the main body.
用户设备可以被实现为移动终端(诸如智能电话、平板个人计算机(PC)、笔记本式PC、便携式游戏终端、便携式/加密狗型移动路由器和数字摄像装置)或者车载终端(诸如汽车导航设备)。用户设备还可以被实现为执行机器对机器(M2M)通信的终端(也称为机器类型通信(MTC)终端)。此外,用户设备可以为安装在上述用户设备中的每个用户设备上的无线通信模块(诸如包括单个晶片的集成电路模块)。The user equipment may be implemented as a mobile terminal (such as a smart phone, a tablet personal computer (PC), a notebook PC, a portable game terminal, a portable/dongle type mobile router, and a digital camera) or a vehicle-mounted terminal (such as a car navigation device). The user equipment may also be implemented as a terminal (also referred to as a machine type communication (MTC) terminal) that performs machine-to-machine (M2M) communication. In addition, the user equipment may be a wireless communication module (such as an integrated circuit module including a single chip) installed on each of the above-mentioned user equipment.
<关于基站的应用示例><About base station application example>
(第一应用示例)(First application example)
图18是示出可以应用本公开内容的技术的eNB的示意性配置的第一示例的框图。eNB 1800包括一个或多个天线1810以及基站设备1820。基 站设备1820和每个天线1810可以经由RF线缆彼此连接。FIG. 18 is a block diagram showing a first example of a schematic configuration of an eNB to which the technology of the present disclosure can be applied. The eNB 1800 includes one or more antennas 1810 and base station equipment 1820. The base station device 1820 and each antenna 1810 may be connected to each other via an RF cable.
天线1810中的每一个均包括单个或多个天线元件(诸如包括在多输入多输出(MIMO)天线中的多个天线元件),并且用于基站设备1820发送和接收无线信号。如图18所示,eNB 1800可以包括多个天线1810。例如,多个天线1810可以与eNB 1800使用的多个频带兼容。虽然图18示出其中eNB 1800包括多个天线1810的示例,但是eNB 1800也可以包括单个天线1810。Each of the antennas 1810 includes a single or multiple antenna elements (such as multiple antenna elements included in a multiple input multiple output (MIMO) antenna), and is used for the base station device 1820 to transmit and receive wireless signals. As shown in FIG. 18, the eNB 1800 may include multiple antennas 1810. For example, multiple antennas 1810 may be compatible with multiple frequency bands used by eNB 1800. Although FIG. 18 shows an example in which the eNB 1800 includes multiple antennas 1810, the eNB 1800 may also include a single antenna 1810.
基站设备1820包括控制器1821、存储器1822、网络接口1823以及无线通信接口1825。The base station equipment 1820 includes a controller 1821, a memory 1822, a network interface 1823, and a wireless communication interface 1825.
控制器1821可以为例如CPU或DSP,并且操作基站设备1820的较高层的各种功能。例如,控制器1821根据由无线通信接口1825处理的信号中的数据来生成数据分组,并经由网络接口1823来传递所生成的分组。控制器1821可以对来自多个基带处理器的数据进行捆绑以生成捆绑分组,并传递所生成的捆绑分组。控制器1821可以具有执行如下控制的逻辑功能:该控制诸如为无线资源控制、无线承载控制、移动性管理、接纳控制和调度。该控制可以结合附近的eNB或核心网节点来执行。存储器1822包括RAM和ROM,并且存储由控制器1821执行的程序和各种类型的控制数据(诸如终端列表、传输功率数据以及调度数据)。The controller 1821 may be, for example, a CPU or a DSP, and operates various functions of a higher layer of the base station device 1820. For example, the controller 1821 generates a data packet based on data in a signal processed by the wireless communication interface 1825, and transmits the generated packet via the network interface 1823. The controller 1821 may bundle data from a plurality of baseband processors to generate a bundled packet, and transfer the generated bundled packet. The controller 1821 may have a logic function to perform control such as radio resource control, radio bearer control, mobility management, admission control, and scheduling. This control can be performed in conjunction with nearby eNBs or core network nodes. The memory 1822 includes RAM and ROM, and stores programs executed by the controller 1821 and various types of control data (such as a terminal list, transmission power data, and scheduling data).
网络接口1823为用于将基站设备1820连接至核心网1824的通信接口。控制器1821可以经由网络接口1823而与核心网节点或另外的eNB进行通信。在此情况下,eNB 1800与核心网节点或其他eNB可以通过逻辑接口(诸如S1接口和X2接口)而彼此连接。网络接口1823还可以为有线通信接口或用于无线回程线路的无线通信接口。如果网络接口1823为无线通信接口,则与由无线通信接口1825使用的频带相比,网络接口1823可以使用较高频带用于无线通信。The network interface 1823 is a communication interface for connecting the base station equipment 1820 to the core network 1824. The controller 1821 may communicate with the core network node or another eNB via the network interface 1823. In this case, the eNB 1800 and the core network node or other eNBs may be connected to each other through a logical interface (such as an S1 interface and an X2 interface). The network interface 1823 may also be a wired communication interface or a wireless communication interface for a wireless backhaul line. If the network interface 1823 is a wireless communication interface, the network interface 1823 can use a higher frequency band for wireless communication than the frequency band used by the wireless communication interface 1825.
无线通信接口1825支持任何蜂窝通信方案(诸如长期演进(LTE)和LTE-先进),并且经由天线1810来提供到位于eNB 1800的小区中的终端的无线连接。无线通信接口1825通常可以包括例如基带(BB)处理器1826和RF电路1827。BB处理器1826可以执行例如编码/解码、调制/解调以及复用/解复用,并且执行层(例如L1、介质访问控制(MAC)、无线链路控制(RLC)和分组数据汇聚协议(PDCP))的各种类型的信号处理。代替控制器1821,BB处理器1826可以具有上述逻辑功能的一部分或全部。BB处理器1826可以为存储通信控制程序的存储器,或者为包 括被配置为执行程序的处理器和相关电路的模块。更新程序可以使BB处理器1826的功能改变。该模块可以为插入到基站设备1820的槽中的卡或刀片。可替代地,该模块也可以为安装在卡或刀片上的芯片。同时,RF电路1827可以包括例如混频器、滤波器和放大器,并且经由天线1810来传送和接收无线信号。The wireless communication interface 1825 supports any cellular communication scheme, such as Long Term Evolution (LTE) and LTE-Advanced, and provides wireless connection to a terminal located in a cell of the eNB1800 via an antenna 1810. The wireless communication interface 1825 may generally include, for example, a baseband (BB) processor 1826 and an RF circuit 1827. The BB processor 1826 can perform, for example, encoding/decoding, modulation/demodulation, and multiplexing/demultiplexing, and perform layers (such as L1, medium access control (MAC), radio link control (RLC), and packet data convergence protocol ( PDCP)) various types of signal processing. Instead of the controller 1821, the BB processor 1826 may have a part or all of the above-mentioned logical functions. The BB processor 1826 may be a memory storing a communication control program, or a module including a processor and related circuits configured to execute the program. The update program can change the function of the BB processor 1826. The module may be a card or a blade inserted into the slot of the base station device 1820. Alternatively, the module can also be a chip mounted on a card or blade. Meanwhile, the RF circuit 1827 may include, for example, a mixer, a filter, and an amplifier, and transmit and receive wireless signals via the antenna 1810.
如图18所示,无线通信接口1825可以包括多个BB处理器1826。例如,多个BB处理器1826可以与eNB 1800使用的多个频带兼容。如图18所示,无线通信接口1825可以包括多个RF电路1827。例如,多个RF电路1827可以与多个天线元件兼容。虽然图18示出其中无线通信接口1825包括多个BB处理器1826和多个RF电路1827的示例,但是无线通信接口1825也可以包括单个BB处理器1826或单个RF电路1827。As shown in FIG. 18, the wireless communication interface 1825 may include a plurality of BB processors 1826. For example, multiple BB processors 1826 may be compatible with multiple frequency bands used by eNB 1800. As shown in FIG. 18, the wireless communication interface 1825 may include a plurality of RF circuits 1827. For example, multiple RF circuits 1827 may be compatible with multiple antenna elements. Although FIG. 18 shows an example in which the wireless communication interface 1825 includes a plurality of BB processors 1826 and a plurality of RF circuits 1827, the wireless communication interface 1825 may also include a single BB processor 1826 or a single RF circuit 1827.
(第二应用示例)(Second application example)
图19是示出可以应用本公开内容的技术的eNB的示意性配置的第二示例的框图。eNB 1930包括一个或多个天线1940、基站设备1950和RRH 1960。RRH 1960和每个天线1940可以经由RF线缆而彼此连接。基站设备1950和RRH 1960可以经由诸如光纤线缆的高速线路而彼此连接。FIG. 19 is a block diagram showing a second example of a schematic configuration of an eNB to which the technology of the present disclosure can be applied. The eNB 1930 includes one or more antennas 1940, base station equipment 1950, and RRH 1960. The RRH 1960 and each antenna 1940 may be connected to each other via an RF cable. The base station equipment 1950 and the RRH 1960 may be connected to each other via a high-speed line such as an optical fiber cable.
天线1940中的每一个均包括单个或多个天线元件(诸如包括在MIMO天线中的多个天线元件)并且用于RRH 1960发送和接收无线信号。如图19所示,eNB 1930可以包括多个天线1940。例如,多个天线1940可以与eNB 1930使用的多个频带兼容。虽然图19示出其中eNB 1930包括多个天线1940的示例,但是eNB 1930也可以包括单个天线1940。Each of the antennas 1940 includes a single or multiple antenna elements (such as multiple antenna elements included in a MIMO antenna) and is used for RRH 1960 to transmit and receive wireless signals. As shown in FIG. 19, the eNB 1930 may include multiple antennas 1940. For example, multiple antennas 1940 may be compatible with multiple frequency bands used by eNB 1930. Although FIG. 19 shows an example in which the eNB 1930 includes multiple antennas 1940, the eNB 1930 may also include a single antenna 1940.
基站设备1950包括控制器1951、存储器1952、网络接口1953、无线通信接口1955以及连接接口1957。控制器1951、存储器1952和网络接口1953与参照图19描述的控制器1821、存储器1822和网络接口1823相同。The base station equipment 1950 includes a controller 1951, a memory 1952, a network interface 1953, a wireless communication interface 1955, and a connection interface 1957. The controller 1951, the memory 1952, and the network interface 1953 are the same as the controller 1821, the memory 1822, and the network interface 1823 described with reference to FIG. 19.
无线通信接口1955支持任何蜂窝通信方案(诸如LTE和LTE-先进),并且经由RRH 1960和天线1940来提供到位于与RRH 1960对应的扇区中的终端的无线通信。无线通信接口1955通常可以包括例如BB处理器1956。除了BB处理器1956经由连接接口1957连接到RRH 1960的RF电路1964之外,BB处理器1956与参照图18描述的BB处理器1826相同。如图19所示,无线通信接口1955可以包括多个BB处理器1956。例如,多个BB处理器1956可以与eNB 1930使用的多个频带兼容。虽然图 19示出其中无线通信接口1955包括多个BB处理器1956的示例,但是无线通信接口1955也可以包括单个BB处理器1956。The wireless communication interface 1955 supports any cellular communication scheme (such as LTE and LTE-Advanced), and provides wireless communication to a terminal located in a sector corresponding to the RRH 1960 via the RRH 1960 and the antenna 1940. The wireless communication interface 1955 may generally include, for example, a BB processor 1956. The BB processor 1956 is the same as the BB processor 1826 described with reference to FIG. 18 except that the BB processor 1956 is connected to the RF circuit 1964 of the RRH 1960 via the connection interface 1957. As shown in FIG. 19, the wireless communication interface 1955 may include a plurality of BB processors 1956. For example, multiple BB processors 1956 may be compatible with multiple frequency bands used by eNB 1930. Although FIG. 19 shows an example in which the wireless communication interface 1955 includes a plurality of BB processors 1956, the wireless communication interface 1955 may also include a single BB processor 1956.
连接接口1957为用于将基站设备1950(无线通信接口1955)连接至RRH 1960的接口。连接接口1957还可以为用于将基站设备1950(无线通信接口1955)连接至RRH 1960的上述高速线路中的通信的通信模块。The connection interface 1957 is an interface for connecting the base station equipment 1950 (wireless communication interface 1955) to the RRH 1960. The connection interface 1957 may also be a communication module for connecting the base station equipment 1950 (wireless communication interface 1955) to the communication in the above-mentioned high-speed line of the RRH 1960.
RRH 1960包括连接接口1961和无线通信接口1963。 RRH 1960 includes connection interface 1961 and wireless communication interface 1963.
连接接口1961为用于将RRH 1960(无线通信接口1963)连接至基站设备1950的接口。连接接口1961还可以为用于上述高速线路中的通信的通信模块。The connection interface 1961 is an interface for connecting the RRH 1960 (wireless communication interface 1963) to the base station equipment 1950. The connection interface 1961 may also be a communication module used for communication in the above-mentioned high-speed line.
无线通信接口1963经由天线1940来传送和接收无线信号。无线通信接口1963通常可以包括例如RF电路1964。RF电路1964可以包括例如混频器、滤波器和放大器,并且经由天线1940来传送和接收无线信号。如图19所示,无线通信接口1963可以包括多个RF电路1964。例如,多个RF电路1964可以支持多个天线元件。虽然图19示出其中无线通信接口1963包括多个RF电路1964的示例,但是无线通信接口1963也可以包括单个RF电路1964。The wireless communication interface 1963 transmits and receives wireless signals via the antenna 1940. The wireless communication interface 1963 may generally include an RF circuit 1964, for example. The RF circuit 1964 may include, for example, a mixer, a filter, and an amplifier, and transmits and receives wireless signals via the antenna 1940. As shown in FIG. 19, the wireless communication interface 1963 may include a plurality of RF circuits 1964. For example, multiple RF circuits 1964 can support multiple antenna elements. Although FIG. 19 shows an example in which the wireless communication interface 1963 includes a plurality of RF circuits 1964, the wireless communication interface 1963 may also include a single RF circuit 1964.
在图18和图19所示的eNB 1800和eNB 1930中,通过使用图6所描述的确定单元610、存储单元620、请求生成单元630、处理单元650、GID信息生成单元660以及通过使用图13所描述的响应信息生成单元1320、确定单元1330和存储单元1340可以由控制器1821和/或控制器1951实现。功能的至少一部分也可以由控制器1821和控制器1951实现。例如,控制器1821和/或控制器1951可以通过执行相应的存储器中存储的指令而执行确定是否存储与将要执行的功能相匹配的GID信息、存储GID信息、生成请求信息、执行功能、生成GID信息、生成响应信息、搜索GID信息和存储GID信息的功能。In the eNB 1800 and eNB 1930 shown in FIGS. 18 and 19, the determination unit 610, the storage unit 620, the request generation unit 630, the processing unit 650, the GID information generation unit 660, and the determination unit 610, the storage unit 620, the request generation unit 630, the processing unit 650, and the GID information generation unit 660 described in FIG. The described response information generating unit 1320, determining unit 1330, and storage unit 1340 may be implemented by the controller 1821 and/or the controller 1951. At least part of the functions may also be implemented by the controller 1821 and the controller 1951. For example, the controller 1821 and/or the controller 1951 may execute the instructions stored in the corresponding memory to determine whether to store GID information that matches the function to be executed, store GID information, generate request information, execute the function, and generate GID. Information, generate response information, search for GID information and store GID information.
<关于终端设备的应用示例><About terminal equipment application example>
(第一应用示例)(First application example)
图20是示出可以应用本公开内容的技术的智能电话2000的示意性配置的示例的框图。智能电话2000包括处理器2001、存储器2002、存储装置2003、外部连接接口2004、摄像装置2006、传感器2007、麦克风2008、输入装置2009、显示装置2010、扬声器2011、无线通信接口2012、一个或多个天线开关2015、一个或多个天线2016、总线2017、电池2018 以及辅助控制器2019。FIG. 20 is a block diagram showing an example of a schematic configuration of a smart phone 2000 to which the technology of the present disclosure can be applied. The smart phone 2000 includes a processor 2001, a memory 2002, a storage device 2003, an external connection interface 2004, a camera device 2006, a sensor 2007, a microphone 2008, an input device 2009, a display device 2010, a speaker 2011, a wireless communication interface 2012, one or more Antenna switch 2015, one or more antennas 2016, bus 2017, battery 2018 and auxiliary controller 2019.
处理器2001可以为例如CPU或片上系统(SoC),并且控制智能电话2000的应用层和另外层的功能。存储器2002包括RAM和ROM,并且存储数据和由处理器2001执行的程序。存储装置2003可以包括存储介质,诸如半导体存储器和硬盘。外部连接接口2004为用于将外部装置(诸如存储卡和通用串行总线(USB)装置)连接至智能电话2000的接口。The processor 2001 may be, for example, a CPU or a system on a chip (SoC), and controls the functions of the application layer and other layers of the smart phone 2000. The memory 2002 includes RAM and ROM, and stores data and programs executed by the processor 2001. The storage device 2003 may include a storage medium such as a semiconductor memory and a hard disk. The external connection interface 2004 is an interface for connecting an external device such as a memory card and a universal serial bus (USB) device to the smartphone 2000.
摄像装置2006包括图像传感器(诸如电荷耦合器件(CCD)和互补金属氧化物半导体(CMOS)),并且生成捕获图像。传感器2007可以包括一组传感器,诸如测量传感器、陀螺仪传感器、地磁传感器和加速度传感器。麦克风2008将输入到智能电话2000的声音转换为音频信号。输入装置2009包括例如被配置为检测显示装置2010的屏幕上的触摸的触摸传感器、小键盘、键盘、按钮或开关,并且接收从用户输入的操作或信息。显示装置2010包括屏幕(诸如液晶显示器(LCD)和有机发光二极管(OLED)显示器),并且显示智能电话2000的输出图像。扬声器2011将从智能电话2000输出的音频信号转换为声音。The imaging device 2006 includes an image sensor such as a charge coupled device (CCD) and a complementary metal oxide semiconductor (CMOS), and generates a captured image. The sensor 2007 may include a group of sensors, such as a measurement sensor, a gyroscope sensor, a geomagnetic sensor, and an acceleration sensor. The microphone 2008 converts the sound input to the smart phone 2000 into an audio signal. The input device 2009 includes, for example, a touch sensor, a keypad, a keyboard, a button, or a switch configured to detect a touch on the screen of the display device 2010, and receives operations or information input from the user. The display device 2010 includes a screen such as a liquid crystal display (LCD) and an organic light emitting diode (OLED) display, and displays the output image of the smartphone 2000. The speaker 2011 converts the audio signal output from the smartphone 2000 into sound.
无线通信接口2012支持任何蜂窝通信方案(诸如LTE和LTE-先进),并且执行无线通信。无线通信接口2012通常可以包括例如BB处理器2013和RF电路2014。BB处理器2013可以执行例如编码/解码、调制/解调以及复用/解复用,并且执行用于无线通信的各种类型的信号处理。同时,RF电路2014可以包括例如混频器、滤波器和放大器,并且经由天线2016来传送和接收无线信号。无线通信接口2012可以为其上集成有BB处理器2013和RF电路2014的一个芯片模块。如图20所示,无线通信接口2012可以包括多个BB处理器2013和多个RF电路2014。虽然图20示出其中无线通信接口2012包括多个BB处理器2013和多个RF电路2014的示例,但是无线通信接口2012也可以包括单个BB处理器2013或单个RF电路2014。The wireless communication interface 2012 supports any cellular communication scheme (such as LTE and LTE-Advanced), and performs wireless communication. The wireless communication interface 2012 may generally include, for example, a BB processor 2013 and an RF circuit 2014. The BB processor 2013 may perform, for example, encoding/decoding, modulation/demodulation, and multiplexing/demultiplexing, and perform various types of signal processing for wireless communication. Meanwhile, the RF circuit 2014 may include, for example, a mixer, a filter, and an amplifier, and transmit and receive wireless signals via the antenna 2016. The wireless communication interface 2012 may be a chip module on which the BB processor 2013 and the RF circuit 2014 are integrated. As shown in FIG. 20, the wireless communication interface 2012 may include multiple BB processors 2013 and multiple RF circuits 2014. Although FIG. 20 shows an example in which the wireless communication interface 2012 includes a plurality of BB processors 2013 and a plurality of RF circuits 2014, the wireless communication interface 2012 may also include a single BB processor 2013 or a single RF circuit 2014.
此外,除了蜂窝通信方案之外,无线通信接口2012可以支持另外类型的无线通信方案,诸如短距离无线通信方案、近场通信方案和无线局域网(LAN)方案。在此情况下,无线通信接口2012可以包括针对每种无线通信方案的BB处理器2013和RF电路2014。Furthermore, in addition to the cellular communication scheme, the wireless communication interface 2012 may support another type of wireless communication scheme, such as a short-range wireless communication scheme, a near field communication scheme, and a wireless local area network (LAN) scheme. In this case, the wireless communication interface 2012 may include a BB processor 2013 and an RF circuit 2014 for each wireless communication scheme.
天线开关2015中的每一个在包括在无线通信接口2012中的多个电路(例如用于不同的无线通信方案的电路)之间切换天线916的连接目的地。Each of the antenna switches 2015 switches the connection destination of the antenna 916 among a plurality of circuits included in the wireless communication interface 2012 (for example, circuits for different wireless communication schemes).
天线2016中的每一个均包括单个或多个天线元件(诸如包括在MIMO天线中的多个天线元件),并且用于无线通信接口2012传送和接收无线信号。如图20所示,智能电话2000可以包括多个天线2016。虽然图20示出其中智能电话2000包括多个天线2016的示例,但是智能电话2000也可以包括单个天线2016。Each of the antennas 2016 includes a single or multiple antenna elements (such as multiple antenna elements included in a MIMO antenna), and is used for the wireless communication interface 2012 to transmit and receive wireless signals. As shown in FIG. 20, the smart phone 2000 may include multiple antennas 2016. Although FIG. 20 shows an example in which the smart phone 2000 includes a plurality of antennas 2016, the smart phone 2000 may also include a single antenna 2016.
此外,智能电话2000可以包括针对每种无线通信方案的天线2016。在此情况下,天线开关2015可以从智能电话2000的配置中省略。In addition, the smart phone 2000 may include an antenna 2016 for each wireless communication scheme. In this case, the antenna switch 2015 may be omitted from the configuration of the smart phone 2000.
总线2017将处理器2001、存储器2002、存储装置2003、外部连接接口2004、摄像装置2006、传感器2007、麦克风2008、输入装置2009、显示装置2010、扬声器2011、无线通信接口2012以及辅助控制器2019彼此连接。电池2018经由馈线向图21所示的智能电话2000的各个块提供电力,馈线在图中被部分地示为虚线。辅助控制器2019例如在睡眠模式下操作智能电话2000的最小必需功能。The bus 2017 connects the processor 2001, memory 2002, storage device 2003, external connection interface 2004, camera device 2006, sensor 2007, microphone 2008, input device 2009, display device 2010, speaker 2011, wireless communication interface 2012, and auxiliary controller 2019 to each other connection. The battery 2018 supplies power to each block of the smart phone 2000 shown in FIG. 21 via a feeder line, which is partially shown as a dashed line in the figure. The auxiliary controller 2019 operates the minimum necessary functions of the smartphone 2000 in the sleep mode, for example.
在图20所示的智能电话2000中,通过使用图3所描述的确定单元310、存储单元320、请求生成单元330、处理单元350、GID信息生成单元360和决策单元370以及通过使用图12所描述的响应信息生成单元1220、确定单元1230和存储单元1240可以由由处理器2001或辅助控制器2019实现。功能的至少一部分也可以由处理器2001或辅助控制器2019实现。例如,处理器2001或辅助控制器2019可以通过执行存储器2002或存储装置2003中存储的指令而执行确定是否存储了与将要执行的功能相匹配的GID信息、存储GID信息、生成请求信息、执行功能、生成GID信息、决策向哪个网络网元发送请求信息、生成响应信息以及搜索GID信息的功能。In the smart phone 2000 shown in FIG. 20, by using the determination unit 310, the storage unit 320, the request generation unit 330, the processing unit 350, the GID information generation unit 360, and the decision unit 370 described in FIG. The described response information generating unit 1220, determining unit 1230, and storage unit 1240 may be implemented by the processor 2001 or the auxiliary controller 2019. At least part of the functions may also be implemented by the processor 2001 or the auxiliary controller 2019. For example, the processor 2001 or the auxiliary controller 2019 may execute the instructions stored in the memory 2002 or the storage device 2003 to determine whether the GID information matching the function to be executed is stored, store the GID information, generate request information, and execute the function. , Generate GID information, decide which network element to send request information to, generate response information and search for GID information.
(第二应用示例)(Second application example)
图21是示出可以应用本公开内容的技术的汽车导航设备2120的示意性配置的示例的框图。汽车导航设备2120包括处理器2121、存储器2122、全球定位系统(GPS)模块2124、传感器2125、数据接口2126、内容播放器2127、存储介质接口2128、输入装置2129、显示装置2130、扬声器2131、无线通信接口2133、一个或多个天线开关2136、一个或多个天线2137以及电池2138。FIG. 21 is a block diagram showing an example of a schematic configuration of a car navigation device 2120 to which the technology of the present disclosure can be applied. The car navigation device 2120 includes a processor 2121, a memory 2122, a global positioning system (GPS) module 2124, a sensor 2125, a data interface 2126, a content player 2127, a storage medium interface 2128, an input device 2129, a display device 2130, a speaker 2131, a wireless A communication interface 2133, one or more antenna switches 2136, one or more antennas 2137, and a battery 2138.
处理器2121可以为例如CPU或SoC,并且控制汽车导航设备2120的导航功能和另外的功能。存储器2122包括RAM和ROM,并且存储数 据和由处理器2121执行的程序。The processor 2121 may be, for example, a CPU or SoC, and controls the navigation function and other functions of the car navigation device 2120. The memory 2122 includes RAM and ROM, and stores data and programs executed by the processor 2121.
GPS模块2124使用从GPS卫星接收的GPS信号来测量汽车导航设备2120的位置(诸如纬度、经度和高度)。传感器2125可以包括一组传感器,诸如陀螺仪传感器、地磁传感器和空气压力传感器。数据接口2126经由未示出的终端而连接到例如车载网络2141,并且获取由车辆生成的数据(诸如车速数据)。The GPS module 2124 uses GPS signals received from GPS satellites to measure the position (such as latitude, longitude, and altitude) of the car navigation device 2120. The sensor 2125 may include a group of sensors, such as a gyroscope sensor, a geomagnetic sensor, and an air pressure sensor. The data interface 2126 is connected to, for example, an in-vehicle network 2141 via a terminal not shown, and acquires data (such as vehicle speed data) generated by the vehicle.
内容播放器2127再现存储在存储介质(诸如CD和DVD)中的内容,该存储介质被插入到存储介质接口2128中。输入装置2129包括例如被配置为检测显示装置2130的屏幕上的触摸的触摸传感器、按钮或开关,并且接收从用户输入的操作或信息。显示装置2130包括诸如LCD或OLED显示器的屏幕,并且显示导航功能的图像或再现的内容。扬声器2131输出导航功能的声音或再现的内容。The content player 2127 reproduces content stored in a storage medium (such as CD and DVD), which is inserted into the storage medium interface 2128. The input device 2129 includes, for example, a touch sensor, a button, or a switch configured to detect a touch on the screen of the display device 2130, and receives an operation or information input from the user. The display device 2130 includes a screen such as an LCD or an OLED display, and displays images of navigation functions or reproduced content. The speaker 2131 outputs the sound of the navigation function or the reproduced content.
无线通信接口2133支持任何蜂窝通信方案(诸如LTE和LTE-先进),并且执行无线通信。无线通信接口2133通常可以包括例如BB处理器2134和RF电路2135。BB处理器2134可以执行例如编码/解码、调制/解调以及复用/解复用,并且执行用于无线通信的各种类型的信号处理。同时,RF电路2135可以包括例如混频器、滤波器和放大器,并且经由天线2137来传送和接收无线信号。无线通信接口2133还可以为其上集成有BB处理器2134和RF电路2135的一个芯片模块。如图21所示,无线通信接口2133可以包括多个BB处理器2134和多个RF电路2135。虽然图21示出其中无线通信接口2133包括多个BB处理器2134和多个RF电路2135的示例,但是无线通信接口2133也可以包括单个BB处理器2134或单个RF电路2135。The wireless communication interface 2133 supports any cellular communication scheme such as LTE and LTE-Advanced, and performs wireless communication. The wireless communication interface 2133 may generally include, for example, a BB processor 2134 and an RF circuit 2135. The BB processor 2134 may perform, for example, encoding/decoding, modulation/demodulation, and multiplexing/demultiplexing, and perform various types of signal processing for wireless communication. Meanwhile, the RF circuit 2135 may include, for example, a mixer, a filter, and an amplifier, and transmit and receive wireless signals via the antenna 2137. The wireless communication interface 2133 may also be a chip module on which the BB processor 2134 and the RF circuit 2135 are integrated. As shown in FIG. 21, the wireless communication interface 2133 may include multiple BB processors 2134 and multiple RF circuits 2135. Although FIG. 21 shows an example in which the wireless communication interface 2133 includes a plurality of BB processors 2134 and a plurality of RF circuits 2135, the wireless communication interface 2133 may also include a single BB processor 2134 or a single RF circuit 2135.
此外,除了蜂窝通信方案之外,无线通信接口2133可以支持另外类型的无线通信方案,诸如短距离无线通信方案、近场通信方案和无线LAN方案。在此情况下,针对每种无线通信方案,无线通信接口2133可以包括BB处理器2134和RF电路2135。Also, in addition to the cellular communication scheme, the wireless communication interface 2133 may support another type of wireless communication scheme, such as a short-range wireless communication scheme, a near field communication scheme, and a wireless LAN scheme. In this case, for each wireless communication scheme, the wireless communication interface 2133 may include a BB processor 2134 and an RF circuit 2135.
天线开关2136中的每一个在包括在无线通信接口2133中的多个电路(诸如用于不同的无线通信方案的电路)之间切换天线2137的连接目的地。Each of the antenna switches 2136 switches the connection destination of the antenna 2137 among a plurality of circuits included in the wireless communication interface 2133, such as circuits for different wireless communication schemes.
天线2137中的每一个均包括单个或多个天线元件(诸如包括在MIMO天线中的多个天线元件),并且用于无线通信接口2133传送和接收 无线信号。如图21所示,汽车导航设备2120可以包括多个天线2137。虽然图21示出其中汽车导航设备2120包括多个天线2137的示例,但是汽车导航设备2120也可以包括单个天线2137。Each of the antennas 2137 includes a single or multiple antenna elements (such as multiple antenna elements included in a MIMO antenna), and is used for the wireless communication interface 2133 to transmit and receive wireless signals. As shown in FIG. 21, the car navigation device 2120 may include multiple antennas 2137. Although FIG. 21 shows an example in which the car navigation device 2120 includes a plurality of antennas 2137, the car navigation device 2120 may also include a single antenna 2137.
此外,汽车导航设备2120可以包括针对每种无线通信方案的天线2137。在此情况下,天线开关2136可以从汽车导航设备2120的配置中省略。In addition, the car navigation device 2120 may include an antenna 2137 for each wireless communication scheme. In this case, the antenna switch 2136 may be omitted from the configuration of the car navigation device 2120.
电池2138经由馈线向图21所示的汽车导航设备2120的各个块提供电力,馈线在图中被部分地示为虚线。电池2138累积从车辆提供的电力。The battery 2138 supplies power to each block of the car navigation device 2120 shown in FIG. 21 via a feeder line, and the feeder line is partially shown as a dashed line in the figure. The battery 2138 accumulates power supplied from the vehicle.
在图21示出的汽车导航设备2120中,通过使用图3所描述的确定单元310、存储单元320、请求生成单元330、处理单元350、GID信息生成单元360和决策单元370以及通过使用图12所描述的响应信息生成单元1220、确定单元1230和存储单元1240可以由处理器2121实现。功能的至少一部分也可以由处理器2121实现。例如,处理器2121可以通过执行存储器2122中存储的指令而执行确定是否存储了与将要执行的功能相匹配的GID信息、存储GID信息、生成请求信息、执行功能、生成GID信息、决策向哪个网络网元发送请求信息、生成响应信息以及搜索GID信息的功能。In the car navigation device 2120 shown in FIG. 21, by using the determining unit 310, the storage unit 320, the request generating unit 330, the processing unit 350, the GID information generating unit 360, and the decision unit 370 described in FIG. The described response information generating unit 1220, determining unit 1230, and storage unit 1240 may be implemented by the processor 2121. At least part of the functions may also be implemented by the processor 2121. For example, the processor 2121 may execute the instructions stored in the memory 2122 to determine whether GID information matching the function to be executed is stored, store GID information, generate request information, execute the function, generate GID information, and decide which network to go to. The network element sends request information, generates response information, and searches for GID information.
本公开内容的技术也可以被实现为包括汽车导航设备2120、车载网络2141以及车辆模块2142中的一个或多个块的车载系统(或车辆)2140。车辆模块2142生成车辆数据(诸如车速、发动机速度和故障信息),并且将所生成的数据输出至车载网络2141。The technology of the present disclosure may also be implemented as an in-vehicle system (or vehicle) 2140 including one or more blocks in a car navigation device 2120, an in-vehicle network 2141, and a vehicle module 2142. The vehicle module 2142 generates vehicle data (such as vehicle speed, engine speed, and failure information), and outputs the generated data to the vehicle network 2141.
以上参照附图描述了本公开的优选实施例,但是本公开当然不限于以上示例。本领域技术人员可在所附权利要求的范围内得到各种变更和修改,并且应理解这些变更和修改自然将落入本公开的技术范围内。The preferred embodiments of the present disclosure have been described above with reference to the accompanying drawings, but the present disclosure is of course not limited to the above examples. Those skilled in the art can get various changes and modifications within the scope of the appended claims, and it should be understood that these changes and modifications will naturally fall within the technical scope of the present disclosure.
例如,附图所示的功能框图中以虚线框示出的单元均表示该功能单元在相应装置中是可选的,并且各个可选的功能单元可以以适当的方式进行组合以实现所需功能。For example, the units shown in dashed boxes in the functional block diagrams shown in the accompanying drawings all indicate that the functional units are optional in the corresponding device, and each optional functional unit can be combined in an appropriate manner to achieve the required functions .
例如,在以上实施例中包括在一个单元中的多个功能可以由分开的装置来实现。替选地,在以上实施例中由多个单元实现的多个功能可分别由分开的装置来实现。另外,以上功能之一可由多个单元来实现。无需说,这样的配置包括在本公开的技术范围内。For example, a plurality of functions included in one unit in the above embodiments may be realized by separate devices. Alternatively, the multiple functions implemented by multiple units in the above embodiments may be implemented by separate devices, respectively. In addition, one of the above functions can be implemented by multiple units. Needless to say, such a configuration is included in the technical scope of the present disclosure.
在该说明书中,流程图中所描述的步骤不仅包括以所述顺序按时间 序列执行的处理,而且包括并行地或单独地而不是必须按时间序列执行的处理。此外,甚至在按时间序列处理的步骤中,无需说,也可以适当地改变该顺序。In this specification, the steps described in the flowchart include not only processing executed in time series in the stated order, but also processing executed in parallel or individually, not necessarily in time series. Furthermore, even in the steps processed in time series, needless to say, the order can be changed appropriately.
以上虽然结合附图详细描述了本公开的实施例,但是应当明白,上面所描述的实施方式只是用于说明本公开,而并不构成对本公开的限制。对于本领域的技术人员来说,可以对上述实施方式作出各种修改和变更而没有背离本公开的实质和范围。因此,本公开的范围仅由所附的权利要求及其等效含义来限定。Although the embodiments of the present disclosure have been described in detail above with reference to the accompanying drawings, it should be understood that the above-described embodiments are only used to illustrate the present disclosure, and do not constitute a limitation to the present disclosure. For those skilled in the art, various modifications and changes can be made to the above-mentioned embodiments without departing from the essence and scope of the present disclosure. Therefore, the scope of the present disclosure is limited only by the appended claims and their equivalent meanings.
Claims (67)
- 一种电子设备,包括处理电路,被配置为:An electronic device, including a processing circuit, is configured to:确定是否存储了与将要执行的功能相匹配的地理信息数据库GID信息,所述GID信息包括与将要执行的功能相关联的数据;Determining whether the geographic information database GID information matching the function to be executed is stored, the GID information includes data associated with the function to be executed;在没有存储与将要执行的功能相匹配的GID信息的情况下,生成用于请求与将要执行的功能相匹配的GID信息的请求信息;In the case that GID information matching the function to be executed is not stored, request information for requesting GID information matching the function to be executed is generated;将所述请求信息发送至其它设备;以及Sending the request information to other devices; and根据请求的结果来执行所述将要执行的功能。The function to be executed is executed according to the result of the request.
- 根据权利要求1所述的电子设备,其中,GID信息包括位置信息、时间信息、类型信息和数据信息,所述位置信息包括生成所述GID信息的位置、所述时间信息包括生成所述GID信息的时间、所述类型信息包括所述GID信息针对的功能的类型,所述数据信息包括与所述功能相关联的数据。The electronic device according to claim 1, wherein the GID information includes location information, time information, type information, and data information, the location information includes a location where the GID information is generated, and the time information includes generating the GID information The type information includes the type of the function targeted by the GID information, and the data information includes data associated with the function.
- 根据权利要求1所述的电子设备,其中,将要执行的功能与GID信息相匹配包括在GID信息中包括的位置信息与所述电子设备的当前位置相匹配,并且其中,所述处理电路还被配置为:The electronic device according to claim 1, wherein the function to be executed is matched with GID information. The location information included in the GID information matches the current location of the electronic device, and wherein the processing circuit is further Configured as:在生成所述GID信息的位置与所述电子设备的当前位置的距离小于距离阈值的情况下,确定所述GID信息中包括的位置信息与所述电子设备的当前位置相匹配。In a case where the distance between the location where the GID information is generated and the current location of the electronic device is less than a distance threshold, it is determined that the location information included in the GID information matches the current location of the electronic device.
- 根据权利要求3所述的电子设备,其中,所述处理电路还被配置为:The electronic device according to claim 3, wherein the processing circuit is further configured to:根据将要执行的功能的类型确定所述距离阈值。The distance threshold is determined according to the type of function to be performed.
- 根据权利要求1所述的电子设备,其中,将要执行的功能与GID信息相匹配包括在所述GID信息中包括的时间信息与当前时间相匹配,所述时间信息还包括所述GID信息针对的目标设备的运行周期,并且The electronic device according to claim 1, wherein matching the function to be performed with the GID information includes matching the time information included in the GID information with the current time, and the time information further includes a target for the GID information The operating cycle of the target device, and其中,所述处理电路还被配置为:在生成所述GID信息的时间与当前时间的差值为所述运行周期的整数倍的情况下,确定所述GID信息中包括的时间信息与当前时间相匹配。Wherein, the processing circuit is further configured to determine the time information included in the GID information and the current time when the difference between the time when the GID information is generated and the current time is an integer multiple of the operating period Match.
- 根据权利要求1所述的电子设备,其中,将要执行的功能与GID 信息相匹配包括所述GID信息中包括的类型信息与将要执行的功能的类型相匹配,并且其中,所述处理电路还被配置为:The electronic device according to claim 1, wherein the matching of the function to be performed with GID information includes matching the type information included in the GID information with the type of the function to be performed, and wherein the processing circuit is also Configured as:在所述GID信息针对的功能的类型与将要执行的功能的类型相同的情况下,确定所述GID信息中包括的类型信息与将要执行的功能的类型相匹配。In the case where the type of the function targeted by the GID information is the same as the type of the function to be executed, it is determined that the type information included in the GID information matches the type of the function to be executed.
- 根据权利要求1所述的电子设备,其中,所述请求信息包括所述电子设备的当前位置、当前时间和将要执行的功能的类型。The electronic device according to claim 1, wherein the request information includes a current location, current time, and type of function to be performed of the electronic device.
- 根据权利要求1所述的电子设备,其中,所述处理电路还被配置为:The electronic device according to claim 1, wherein the processing circuit is further configured to:在存储了与将要执行的功能相匹配的GID信息的情况下,利用与将要执行的功能相匹配的GID信息中包括的数据信息执行所述功能。In a case where the GID information matching the function to be executed is stored, the function is executed using data information included in the GID information matching the function to be executed.
- 根据权利要求1所述的电子设备,其中,所述处理电路还被配置为:The electronic device according to claim 1, wherein the processing circuit is further configured to:从所述其它设备接收包括与将要执行的功能相匹配的GID信息的响应信息;以及Receiving response information including GID information matching the function to be performed from the other device; and利用与将要执行的功能相匹配的GID信息中包括的数据信息执行所述功能。The function is executed using data information included in the GID information matching the function to be executed.
- 根据权利要求9所述的电子设备,其中,所述处理电路还被配置为:The electronic device according to claim 9, wherein the processing circuit is further configured to:存储从所述其它设备接收的与将要执行的功能相匹配的GID信息。Store GID information that matches the function to be executed received from the other device.
- 根据权利要求1所述的电子设备,其中,所述处理电路还被配置为:The electronic device according to claim 1, wherein the processing circuit is further configured to:在没有存储与将要执行的功能相匹配的GID信息、并且没有从所述其它设备获取与将要执行的功能相匹配的GID信息的情况下,在执行所述功能之后,生成GID信息,并且In a case where GID information matching the function to be executed is not stored, and GID information matching the function to be executed is not acquired from the other device, after the function is executed, GID information is generated, and其中,所述GID信息中的位置信息包括所述电子设备当前的位置,所述GID信息中的时间信息包括当前时间,所述GID信息中的类型信息包括所述功能的类型,并利用执行所述功能的过程中生成的数据确定所述GID信息中的数据信息。Wherein, the location information in the GID information includes the current location of the electronic device, the time information in the GID information includes the current time, and the type information in the GID information includes the type of the function. The data generated in the process of the function determines the data information in the GID information.
- 根据权利要求11所述的电子设备,其中,所述数据信息包括所述 GID信息针对的目标设备、所述数据信息的属性和所述数据信息的值。The electronic device according to claim 11, wherein the data information includes a target device targeted by the GID information, an attribute of the data information, and a value of the data information.
- 根据权利要求12所述的电子设备,其中,所述时间信息还包括所述目标设备的运行周期。The electronic device according to claim 12, wherein the time information further includes an operating period of the target device.
- 根据权利要求11所述的电子设备,其中,所述处理电路还被配置为:The electronic device according to claim 11, wherein the processing circuit is further configured to:存储生成的GID信息和/或将所生成的GID信息发送至数据中心。Store the generated GID information and/or send the generated GID information to the data center.
- 根据权利要求1所述的电子设备,其中,所述电子设备包括用户设备,并且所述其它设备包括所述用户设备周围的其它用户设备。The electronic device according to claim 1, wherein the electronic device includes a user device, and the other device includes other user devices around the user device.
- 根据权利要求15所述的电子设备,其中,所述处理电路还被配置为:The electronic device according to claim 15, wherein the processing circuit is further configured to:向所述其它用户设备广播发送所述请求信息。Broadcasting the request information to the other user equipment.
- 根据权利要求1所述的电子设备,其中,所述电子设备包括用户设备,并且所述其它设备包括为所述用户设备提供服务的网络侧设备。The electronic device according to claim 1, wherein the electronic device includes a user equipment, and the other device includes a network side device that provides a service for the user equipment.
- 根据权利要求1所述的电子设备,其中,所述电子设备包括网络侧设备,并且所述其它设备包括所述网络侧设备能够访问的数据中心。The electronic device according to claim 1, wherein the electronic device includes a network-side device, and the other device includes a data center accessible by the network-side device.
- 根据权利要求17或18所述的电子设备,其中,所述网络侧设备位于卫星设备上或位于地面设备上。The electronic device according to claim 17 or 18, wherein the network side device is located on a satellite device or on a ground device.
- 一种电子设备,包括处理电路,被配置为:An electronic device, including a processing circuit, is configured to:从其它设备接收用于请求与所述其它设备将要执行的功能相匹配的地理信息数据库GID信息的请求信息;以及Receiving request information from the other device for requesting GID information in the geographic information database that matches the function to be performed by the other device; and向所述其它设备发送包括与所述其它设备将要执行的功能相匹配的GID信息的响应信息以用于所述其它设备根据所述GID信息来执行所述将要执行的功能,Sending response information including GID information matching the function to be performed by the other device to the other device for the other device to perform the function to be performed according to the GID information,其中,所述GID信息包括与将要执行的功能相关联的数据。Wherein, the GID information includes data associated with the function to be executed.
- 根据权利要求20所述的电子设备,其中,所述GID信息包括位置信息、时间信息、类型信息和数据信息,所述位置信息包括生成所述GID信息的位置、所述时间信息包括生成所述GID信息的时间、所述类型信息包括所述GID信息针对的功能的类型,所述数据信息包括与所述功能相关联的数据。The electronic device according to claim 20, wherein the GID information includes location information, time information, type information, and data information, the location information includes a location where the GID information is generated, and the time information includes generating the The time of the GID information and the type information include the type of the function targeted by the GID information, and the data information includes data associated with the function.
- 根据权利要求20所述的电子设备,其中,所述请求信息包括所 述其它设备的当前位置、当前时间和所述其它设备将要执行的功能的类型。The electronic device according to claim 20, wherein the request information includes the current location of the other device, the current time, and the type of function to be performed by the other device.
- 根据权利要求20所述的电子设备,其中,所述处理电路还被配置为:确定是否存储有与所述其它设备将要执行的功能相匹配的GID信息,The electronic device according to claim 20, wherein the processing circuit is further configured to determine whether GID information matching the function to be performed by the other device is stored,其中,所述其它设备将要执行的功能与GID信息相匹配包括在GID信息中包括的位置信息与所述其它设备的当前位置相匹配,并且Wherein, the function to be performed by the other device matches the GID information, and the location information included in the GID information matches the current location of the other device, and其中,在生成所述GID信息的位置与所述其它设备的当前位置的距离小于距离阈值的情况下,确定所述GID信息中包括的位置信息与所述其它设备的当前位置相匹配。Wherein, when the distance between the location where the GID information is generated and the current location of the other device is less than a distance threshold, it is determined that the location information included in the GID information matches the current location of the other device.
- 根据权利要求23所述的电子设备,其中,所述处理电路还被配置为:The electronic device according to claim 23, wherein the processing circuit is further configured to:根据所述其它设备将要执行的功能的类型确定所述距离阈值。The distance threshold is determined according to the type of function to be performed by the other device.
- 根据权利要求20所述的电子设备,其中,所述处理电路还被配置为:确定是否存储有与所述其它设备将要执行的功能相匹配的GID信息,The electronic device according to claim 20, wherein the processing circuit is further configured to determine whether GID information matching the function to be performed by the other device is stored,其中,所述其它设备将要执行的功能与GID信息相匹配包括在所述GID信息中包括的时间信息与当前时间相匹配,所述时间信息还包括所述GID信息针对的目标设备的运行周期,并且Wherein, matching the function to be performed by the other device with the GID information includes matching the time information included in the GID information with the current time, and the time information also includes the operating period of the target device targeted by the GID information, and其中,在生成所述GID信息的时间与当前时间的差值为所述运行周期的整数倍的情况下,确定所述GID信息中包括的时间信息与当前时间相匹配。Wherein, when the difference between the time when the GID information is generated and the current time is an integer multiple of the operating period, it is determined that the time information included in the GID information matches the current time.
- 根据权利要求20所述的电子设备,其中,所述处理电路还被配置为:确定是否存储有与所述其它设备将要执行的功能相匹配的GID信息,The electronic device according to claim 20, wherein the processing circuit is further configured to determine whether GID information matching the function to be performed by the other device is stored,其中,所述其它设备将要执行的功能与GID信息相匹配包括所述GID信息中包括的类型信息与所述其它设备将要执行的功能的类型相匹配,并且Wherein, the function to be performed by the other device matches the GID information, including that the type information included in the GID information matches the type of the function to be performed by the other device, and其中,在所述GID信息针对的功能的类型与所述其它设备将要执行的功能的类型相同的情况下,确定所述GID信息中包括的类型信息与所述其它设备将要执行的功能的类型相匹配。Wherein, in the case that the type of the function targeted by the GID information is the same as the type of the function to be performed by the other device, it is determined that the type information included in the GID information is the same as the type of the function to be performed by the other device. match.
- 根据权利要求21所述的电子设备,其中,所述数据信息包括所述GID信息针对的目标设备、所述数据信息的属性和所述数据信息的值。The electronic device according to claim 21, wherein the data information includes a target device targeted by the GID information, an attribute of the data information, and a value of the data information.
- 根据权利要求27所述的电子设备,其中,所述时间信息还包括所述目标设备的运行周期。The electronic device according to claim 27, wherein the time information further includes an operating period of the target device.
- 根据权利要求20所述的电子设备,其中,所述电子设备包括用户设备,并且所述其它设备包括所述用户设备周围的其它用户设备。The electronic device according to claim 20, wherein the electronic device includes a user device, and the other device includes other user devices around the user device.
- 根据权利要求20所述的电子设备,其中,所述其它设备包括用户设备,并且所述电子设备包括为所述用户设备提供服务的网络侧设备。The electronic device according to claim 20, wherein the other device includes a user equipment, and the electronic device includes a network side device that provides a service for the user equipment.
- 根据权利要求30所述的电子设备,其中,所述处理电路还被配置为:The electronic device according to claim 30, wherein the processing circuit is further configured to:向数据中心转发所述请求信息;以及Forward the request information to the data center; and从所述数据中心接收包括与所述其它设备将要执行的功能相匹配的GID信息的响应信息。Receive response information including GID information matching the function to be performed by the other device from the data center.
- 根据权利要求20所述的电子设备,其中,所述其它设备包括网络侧设备,并且所述电子设备包括所述网络侧设备能够访问的数据中心。The electronic device according to claim 20, wherein the other device includes a network-side device, and the electronic device includes a data center accessible by the network-side device.
- 根据权利要求30或32所述的电子设备,其中,所述网络侧设备位于卫星设备上或位于地面设备上。The electronic device according to claim 30 or 32, wherein the network side device is located on a satellite device or on a ground device.
- 一种由电子设备执行的无线通信方法,包括:A wireless communication method executed by an electronic device, including:确定是否存储了与将要执行的功能相匹配的地理信息数据库GID信息,所述GID信息包括与将要执行的功能相关联的数据;Determining whether the geographic information database GID information matching the function to be executed is stored, the GID information includes data associated with the function to be executed;在没有存储与将要执行的功能相匹配的GID信息的情况下,生成用于请求与将要执行的功能相匹配的GID信息的请求信息;In the case that GID information matching the function to be executed is not stored, request information for requesting GID information matching the function to be executed is generated;将所述请求信息发送至其它设备;以及Sending the request information to other devices; and根据请求的结果来执行所述将要执行的功能。The function to be executed is executed according to the result of the request.
- 根据权利要求34所述的无线通信方法,其中,GID信息包括位置信息、时间信息、类型信息和数据信息,所述位置信息包括生成所述GID信息的位置、所述时间信息包括生成所述GID信息的时间、所述类型信息包括所述GID信息针对的功能的类型,所述数据信息包括与所述功能相关联的数据。The wireless communication method according to claim 34, wherein the GID information includes location information, time information, type information, and data information, the location information includes a location where the GID information is generated, and the time information includes generating the GID The time of the information and the type information include the type of the function targeted by the GID information, and the data information includes data associated with the function.
- 根据权利要求34所述的无线通信方法,其中,确定所述GID信 息与将要执行的功能相匹配包括在GID信息中包括的位置信息与所述电子设备的当前位置相匹配,并且The wireless communication method according to claim 34, wherein it is determined that the GID information matches the function to be performed, and the location information included in the GID information matches the current location of the electronic device, and其中,在生成所述GID信息的位置与所述电子设备的当前位置的距离小于距离阈值的情况下,确定所述GID信息中包括的位置信息与所述电子设备的当前位置相匹配。Wherein, when the distance between the location where the GID information is generated and the current location of the electronic device is less than a distance threshold, it is determined that the location information included in the GID information matches the current location of the electronic device.
- 根据权利要求36所述的无线通信方法,其中,所述无线通信方法还包括:The wireless communication method according to claim 36, wherein the wireless communication method further comprises:根据将要执行的功能的类型确定所述距离阈值。The distance threshold is determined according to the type of function to be performed.
- 根据权利要求34所述的无线通信方法,其中,将要执行的功能与GID信息相匹配包括在所述GID信息中包括的时间信息与当前时间相匹配,所述时间信息还包括所述GID信息针对的目标设备的运行周期,并且The wireless communication method according to claim 34, wherein matching the function to be performed with the GID information includes matching the time information included in the GID information with the current time, and the time information further includes the GID information The operating cycle of the target device, and其中,在生成所述GID信息的时间与当前时间的差值为所述运行周期的整数倍的情况下,确定所述GID信息中包括的时间信息与当前时间相匹配。Wherein, when the difference between the time when the GID information is generated and the current time is an integer multiple of the operating period, it is determined that the time information included in the GID information matches the current time.
- 根据权利要求34所述的无线通信方法,其中,将要执行的功能与GID信息相匹配包括所述GID信息中包括的类型信息与将要执行的功能的类型相匹配,并且The wireless communication method according to claim 34, wherein matching the function to be performed with GID information includes matching the type information included in the GID information with the type of the function to be performed, and其中,在所述GID信息针对的功能的类型与将要执行的功能的类型相同的情况下,确定所述GID信息中包括的类型信息与将要执行的功能的类型相匹配。Wherein, in the case that the type of the function targeted by the GID information is the same as the type of the function to be executed, it is determined that the type information included in the GID information matches the type of the function to be executed.
- 根据权利要求34所述的无线通信方法,其中,所述请求信息包括所述电子设备的当前位置、当前时间和将要执行的功能的类型。The wireless communication method according to claim 34, wherein the request information includes a current location, current time, and type of function to be performed of the electronic device.
- 根据权利要求34所述的无线通信方法,其中,所述无线通信方法还包括:The wireless communication method according to claim 34, wherein the wireless communication method further comprises:在存储了与将要执行的功能相匹配的GID信息的情况下,利用与将要执行的功能相匹配的GID信息中包括的数据信息执行所述功能。In a case where the GID information matching the function to be executed is stored, the function is executed using data information included in the GID information matching the function to be executed.
- 根据权利要求34所述的无线通信方法,其中,所述无线通信方法还包括:The wireless communication method according to claim 34, wherein the wireless communication method further comprises:从所述其它设备接收包括与将要执行的功能相匹配的GID信息的响应信息;以及Receiving response information including GID information matching the function to be performed from the other device; and利用与将要执行的功能相匹配的GID信息中包括的数据信息执行所述功能。The function is executed using data information included in the GID information matching the function to be executed.
- 根据权利要求42所述的无线通信方法,其中,所述无线通信方法还包括:The wireless communication method according to claim 42, wherein the wireless communication method further comprises:存储从所述其它设备接收的与将要执行的功能相匹配的GID信息。Store GID information that matches the function to be executed received from the other device.
- 根据权利要求34所述的无线通信方法,其中,所述无线通信方法还包括:The wireless communication method according to claim 34, wherein the wireless communication method further comprises:在没有存储与将要执行的功能相匹配的GID信息、并且没有从所述其它设备获取与将要执行的功能相匹配的GID信息的情况下,在执行所述功能之后,生成GID信息,并且In a case where GID information matching the function to be executed is not stored, and GID information matching the function to be executed is not acquired from the other device, after the function is executed, GID information is generated, and其中,所述GID信息中的位置信息包括所述电子设备当前的位置,所述GID信息中的时间信息包括当前时间,所述GID信息中的类型信息包括所述功能的类型,并利用执行所述功能的过程中生成的数据确定所述GID信息中的数据信息。Wherein, the location information in the GID information includes the current location of the electronic device, the time information in the GID information includes the current time, and the type information in the GID information includes the type of the function. The data generated in the process of the function determines the data information in the GID information.
- 根据权利要求35所述的无线通信方法,其中,所述数据信息包括所述GID信息针对的目标设备、所述数据信息的属性和所述数据信息的值。The wireless communication method according to claim 35, wherein the data information includes a target device targeted by the GID information, an attribute of the data information, and a value of the data information.
- 根据权利要求45所述的无线通信方法,其中,所述时间信息还包括所述目标设备的运行周期。The wireless communication method according to claim 45, wherein the time information further includes an operating period of the target device.
- 根据权利要求44所述的无线通信方法,其中,所述无线通信方法还包括:The wireless communication method according to claim 44, wherein the wireless communication method further comprises:存储生成的GID信息和/或将所生成的GID信息发送至数据中心。Store the generated GID information and/or send the generated GID information to the data center.
- 根据权利要求34所述的无线通信方法,其中,所述电子设备包括用户设备,并且所述其它设备包括所述用户设备周围的其它用户设备。The wireless communication method according to claim 34, wherein the electronic equipment includes a user equipment, and the other equipment includes other user equipment around the user equipment.
- 根据权利要求48所述的无线通信方法,其中,发送所述请求信息包括:The wireless communication method according to claim 48, wherein sending the request information comprises:向所述其它用户设备广播发送所述请求信息。Broadcasting the request information to the other user equipment.
- 根据权利要求34所述的无线通信方法,其中,所述电子设备包括用户设备,并且所述其它设备包括为所述用户设备提供服务的网络侧设备。The wireless communication method according to claim 34, wherein the electronic device includes a user equipment, and the other device includes a network side device that provides a service for the user equipment.
- 根据权利要求34所述的无线通信方法,其中,所述电子设备包括网络侧设备,并且所述其它设备包括所述网络侧设备能够访问的数据中心。The wireless communication method according to claim 34, wherein the electronic device includes a network-side device, and the other device includes a data center accessible by the network-side device.
- 根据权利要求50或51所述的无线通信方法,其中,所述网络侧设备位于卫星设备上或位于地面设备上。The wireless communication method according to claim 50 or 51, wherein the network side device is located on a satellite device or on a ground device.
- 一种由电子设备执行的无线通信方法,包括:A wireless communication method executed by an electronic device, including:从其它设备接收用于请求与所述其它设备将要执行的功能相匹配的地理信息数据库GID信息的请求信息;以及Receiving request information from another device for requesting GID information in a geographic information database that matches the function to be performed by the other device; and向所述其它设备发送包括与所述其它设备将要执行的功能相匹配的GID信息的响应信息以用于所述其它设备根据所述GID信息来执行所述将要执行的功能,Sending response information including GID information matching the function to be performed by the other device to the other device for the other device to perform the function to be performed according to the GID information,其中,所述GID信息包括与将要执行的功能相关联的数据。Wherein, the GID information includes data associated with the function to be executed.
- 根据权利要求53所述的无线通信方法,其中,所述GID信息包括位置信息、时间信息、类型信息和数据信息,所述位置信息包括生成所述GID信息的位置、所述时间信息包括生成所述GID信息的时间、所述类型信息包括所述GID信息针对的功能的类型,所述数据信息包括与所述功能相关联的数据。The wireless communication method according to claim 53, wherein the GID information includes location information, time information, type information, and data information, the location information includes the location where the GID information is generated, and the time information includes the location where the GID information is generated. The time of the GID information and the type information include the type of the function targeted by the GID information, and the data information includes data associated with the function.
- 根据权利要求53所述的无线通信方法,其中,所述请求信息包括所述其它设备的当前位置、当前时间和所述其它设备将要执行的功能的类型。The wireless communication method according to claim 53, wherein the request information includes a current location of the other device, a current time, and a type of function to be performed by the other device.
- 根据权利要求53所述的无线通信方法,其中,所述无线通信方法还包括:The wireless communication method according to claim 53, wherein the wireless communication method further comprises:确定是否存储有与所述其它设备将要执行的功能相匹配的地理信息数据库GID信息,Determine whether there is stored GID information of the geographic information database that matches the function to be performed by the other device,其中,所述其它设备将要执行的功能与GID信息相匹配包括在GID信息中包括的位置信息与所述其它设备的当前位置相匹配,并且Wherein, the function to be performed by the other device matches the GID information, and the location information included in the GID information matches the current location of the other device, and其中,在生成所述GID信息的位置与所述其它设备的当前位置的距离小于距离阈值的情况下,确定所述GID信息中包括的位置信息与所述其它设备的当前位置相匹配。Wherein, when the distance between the location where the GID information is generated and the current location of the other device is less than a distance threshold, it is determined that the location information included in the GID information matches the current location of the other device.
- 根据权利要求56所述的无线通信方法,其中,所述无线通信方法还包括:The wireless communication method according to claim 56, wherein the wireless communication method further comprises:根据所述其它设备将要执行的功能的类型确定所述距离阈值。The distance threshold is determined according to the type of function to be performed by the other device.
- 根据权利要求53所述的无线通信方法,其中,所述无线通信方法还包括:The wireless communication method according to claim 53, wherein the wireless communication method further comprises:确定是否存储有与所述其它设备将要执行的功能相匹配的地理信息数据库GID信息,Determine whether there is stored GID information of the geographic information database that matches the function to be performed by the other device,其中,所述其它设备将要执行的功能与GID信息相匹配包括在所述GID信息中包括的时间信息与当前时间相匹配,所述时间信息还包括所述GID信息针对的目标设备的运行周期,并且Wherein, matching the function to be performed by the other device with the GID information includes matching the time information included in the GID information with the current time, and the time information also includes the operating period of the target device targeted by the GID information, and其中,在生成所述GID信息的时间与当前时间的差值为所述运行周期的整数倍的情况下,确定所述GID信息中包括的时间信息与当前时间相匹配。Wherein, when the difference between the time when the GID information is generated and the current time is an integer multiple of the operating period, it is determined that the time information included in the GID information matches the current time.
- 根据权利要求53所述的无线通信方法,其中,所述无线通信方法还包括:确定是否存储有与所述其它设备将要执行的功能相匹配的地理信息数据库GID信息,The wireless communication method according to claim 53, wherein the wireless communication method further comprises: determining whether the geographic information database GID information matching the function to be performed by the other device is stored,其中,所述其它设备将要执行的功能与GID信息相匹配包括所述GID信息中包括的类型信息与所述其它设备将要执行的功能的类型相匹配,并且Wherein, the function to be performed by the other device matches the GID information, including that the type information included in the GID information matches the type of the function to be performed by the other device, and其中,在所述GID信息针对的功能的类型与所述其它设备将要执行的功能的类型相同的情况下,确定所述GID信息中包括的类型信息与所述其它设备将要执行的功能的类型相匹配。Wherein, in the case that the type of the function targeted by the GID information is the same as the type of the function to be performed by the other device, it is determined that the type information included in the GID information is the same as the type of the function to be performed by the other device. match.
- 根据权利要求54所述的无线通信方法,其中,所述数据信息包括所述GID信息针对的目标设备、所述数据信息的属性和所述数据信息的值。The wireless communication method according to claim 54, wherein the data information includes a target device targeted by the GID information, an attribute of the data information, and a value of the data information.
- 根据权利要求60所述的无线通信方法,其中,所述时间信息还包括所述目标设备的运行周期。The wireless communication method according to claim 60, wherein the time information further includes an operating period of the target device.
- 根据权利要求53所述的无线通信方法,其中,所述电子设备包括用户设备,并且所述其它设备包括所述用户设备周围的其它用户设备。The wireless communication method according to claim 53, wherein the electronic device includes a user device, and the other device includes other user devices around the user device.
- 根据权利要求53所述的无线通信方法,其中,所述其它设备包括用户设备,并且所述电子设备包括为所述用户设备提供服务的网络侧设备。The wireless communication method according to claim 53, wherein the other device includes a user equipment, and the electronic device includes a network side device that provides a service for the user equipment.
- 根据权利要求63所述的无线通信方法,其中,所述无线通信方 法还包括:The wireless communication method according to claim 63, wherein the wireless communication method further comprises:向数据中心转发所述请求信息;以及Forward the request information to the data center; and从所述数据中心接收包括与所述其它设备将要执行的功能相匹配的GID信息的响应信息。Receive response information including GID information matching the function to be performed by the other device from the data center.
- 根据权利要求53所述的无线通信方法,其中,所述其它设备包括网络侧设备,并且所述电子设备包括所述网络侧设备能够访问的数据中心。The wireless communication method according to claim 53, wherein the other device includes a network-side device, and the electronic device includes a data center accessible by the network-side device.
- 根据权利要求63或65所述的无线通信方法,其中,所述网络侧设备位于卫星设备上或位于地面设备上。The wireless communication method according to claim 63 or 65, wherein the network side device is located on a satellite device or on a ground device.
- 一种计算机可读存储介质,包括可执行计算机指令,所述可执行计算机指令当被计算机执行时使得所述计算机执行根据权利要求34-66中任一项所述的无线通信方法。A computer-readable storage medium comprising executable computer instructions, which when executed by a computer, cause the computer to execute the wireless communication method according to any one of claims 34-66.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202080045122.6A CN113994724B (en) | 2019-07-31 | 2020-07-27 | Electronic device, wireless communication method, and computer-readable storage medium |
CN202410306218.3A CN118317284A (en) | 2019-07-31 | 2020-07-27 | Electronic device, wireless communication method, and computer-readable storage medium |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910701215.9 | 2019-07-31 | ||
CN201910701215.9A CN112312382A (en) | 2019-07-31 | 2019-07-31 | Electronic device, wireless communication method, and computer-readable storage medium |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2021018077A1 true WO2021018077A1 (en) | 2021-02-04 |
Family
ID=74228529
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/CN2020/104750 WO2021018077A1 (en) | 2019-07-31 | 2020-07-27 | Electronic apparatus, wireless communication method, and computer readable storage medium |
Country Status (2)
Country | Link |
---|---|
CN (3) | CN112312382A (en) |
WO (1) | WO2021018077A1 (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP7563678B2 (en) * | 2021-03-25 | 2024-10-08 | 株式会社Nttドコモ | Terminal and communication method |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102957668A (en) * | 2011-08-23 | 2013-03-06 | 中兴通讯股份有限公司 | Method for acquiring location information from identifier-based network and access service router |
US20130275884A1 (en) * | 2012-04-12 | 2013-10-17 | Google Inc. | Managing moderation of user-contributed edits |
CN103686591A (en) * | 2012-09-06 | 2014-03-26 | 腾讯科技(深圳)有限公司 | Method and system for acquiring position information |
CN109155899A (en) * | 2018-01-23 | 2019-01-04 | 深圳前海达闼云端智能科技有限公司 | Network-residing method of mobile terminal in wireless communication network and mobile terminal |
Family Cites Families (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9264856B1 (en) * | 2008-09-10 | 2016-02-16 | Dominic M. Kotab | Geographical applications for mobile devices and backend systems |
US8681741B1 (en) * | 2010-05-07 | 2014-03-25 | Qualcomm Incorporated | Autonomous hybrid WLAN/GPS location self-awareness |
WO2013101879A1 (en) * | 2011-12-28 | 2013-07-04 | Hu Yamin | Unified platform for collecting, storing, sharing geographical information and providing relevant services across network clouds |
CN103792560B (en) * | 2012-10-30 | 2017-03-15 | 中兴通讯股份有限公司 | Satellite positioning method, apparatus and system |
US20150247928A1 (en) * | 2014-02-28 | 2015-09-03 | Texas Instruments Incorporated | Cooperative location sensor apparatus and system for low complexity geolocation |
US9858425B2 (en) * | 2014-07-07 | 2018-01-02 | Qualcomm Incorporated | Method and apparatus for incrementally sharing greater amounts of information between user devices |
KR102240719B1 (en) * | 2015-02-05 | 2021-04-15 | 삼성전자주식회사 | Method for obtaining location information and an electronic device thereof |
CN106162506A (en) * | 2015-03-27 | 2016-11-23 | 北京智谷睿拓技术服务有限公司 | Information sharing method, wireless communications method and device thereof |
US10700757B2 (en) * | 2016-04-18 | 2020-06-30 | Intel Corporation | Selection of beamforming directions based on learned performance |
GB2583524A (en) * | 2019-05-03 | 2020-11-04 | Samsung Electronics Co Ltd | Improvements in and relating to Doppler compensation in a non-terrestrial telecommunication network |
-
2019
- 2019-07-31 CN CN201910701215.9A patent/CN112312382A/en active Pending
-
2020
- 2020-07-27 WO PCT/CN2020/104750 patent/WO2021018077A1/en active Application Filing
- 2020-07-27 CN CN202080045122.6A patent/CN113994724B/en active Active
- 2020-07-27 CN CN202410306218.3A patent/CN118317284A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102957668A (en) * | 2011-08-23 | 2013-03-06 | 中兴通讯股份有限公司 | Method for acquiring location information from identifier-based network and access service router |
US20130275884A1 (en) * | 2012-04-12 | 2013-10-17 | Google Inc. | Managing moderation of user-contributed edits |
CN103686591A (en) * | 2012-09-06 | 2014-03-26 | 腾讯科技(深圳)有限公司 | Method and system for acquiring position information |
CN109155899A (en) * | 2018-01-23 | 2019-01-04 | 深圳前海达闼云端智能科技有限公司 | Network-residing method of mobile terminal in wireless communication network and mobile terminal |
Also Published As
Publication number | Publication date |
---|---|
CN118317284A (en) | 2024-07-09 |
CN113994724A (en) | 2022-01-28 |
CN112312382A (en) | 2021-02-02 |
CN113994724B (en) | 2024-04-09 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US11924878B2 (en) | User equipment, network side device, wireless communication method and storage medium for channel occupancy time sharing | |
JP7524992B2 (en) | Terminal device, wireless communication device, wireless communication method, and computer program | |
EP3678406B1 (en) | Electronic device and method for wireless communications | |
US11012840B2 (en) | Wireless communication device and wireless communication method | |
CN111684857B (en) | Electronic device, user device, wireless communication method, and storage medium | |
CN110546989B (en) | Electronic device in wireless communication system and wireless communication method | |
US11513182B2 (en) | User equipment in wireless communication system, electronic device, method and storage medium | |
US20240259972A1 (en) | User equipment, centralized unit device, wireless communication method and storage medium | |
EP3550875B1 (en) | Devices in wireless communication system | |
WO2018128029A1 (en) | Terminal device, base station device, method and recording medium | |
US20190090228A1 (en) | User equipment and base station in wireless communications system, and wireless communications method | |
WO2021164675A1 (en) | Electronic device, wireless communication method, and computer-readable storage medium | |
WO2021018077A1 (en) | Electronic apparatus, wireless communication method, and computer readable storage medium | |
JP2016012881A (en) | Apparatus, method and program | |
US10028256B2 (en) | Apparatus | |
WO2021147713A1 (en) | Electronic device, wireless communication method, and computer-readable storage medium | |
EP4135471A1 (en) | Electronic device, wireless communication method, and computer readable storage medium | |
WO2021179982A1 (en) | Electronic device and method for wireless communication and computer-readable storage medium | |
WO2021043150A1 (en) | Electronic device and method for wireless communication, and computer-readable storage medium |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
121 | Ep: the epo has been informed by wipo that ep was designated in this application |
Ref document number: 20847492 Country of ref document: EP Kind code of ref document: A1 |
|
NENP | Non-entry into the national phase |
Ref country code: DE |
|
122 | Ep: pct application non-entry in european phase |
Ref document number: 20847492 Country of ref document: EP Kind code of ref document: A1 |