The disclosure relates to the field of microfluidic technology, and in particular to a method for determining an ECP, a user equipment, and a network side device.
With the development of communication technology, it is necessary to support video streaming services with a higher rate, and a broadcast mode can be used for video streaming service transmission, that is, video streaming services can be received without user equipment feedback information. A single frequency network (SFN) technology can effectively improve service transmission efficiency. Although the SFN technology can improve the service transmission rate and user coverage, it needs the support of Extended Cyclic Prefix (ECP). When the slot for data transmission is an ECP slot, it needs to notify the user equipment to allow the user equipment to receive data according to the relevant parameters of ECP.
In the LTE system, a transmission position of the synchronization signal block (Synchronous signaling block, SSB) is fixed. A slot including the initial access signal and a slot for unicast scheduling are the Normal Cyclic Prefix (Normal Cyclic Prefix, NCP) slot in default, and an indication is used for indicating whether a slot is the ECP slot, but the indication is invalid for the slot that include initial access signal transmission and the slot for unicast scheduling.
In a New Radio (NR) system, a radio frame includes multiple candidate positions, and any one or more of the candidate positions are used for the SSB transmission. The above method of determining the ECP slot is not applicable to the NR system.
The disclosure provides a method for determining an ECP slot, a user equipment and a network side device, to solve the problem of determining an ECP slot in an NR system.
In a first aspect, some embodiments of the disclosure provide an ECP slot determination method, applied to a user equipment, UE, and the method includes:
In an optional implementation, the determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In an optional implementation, the determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In an optional implementation, the determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In an optional implementation, the first preset quantity is a difference between a total quantity of slots within the preset unit length and a slot adjustment amount.
In an optional implementation, the determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In an optional implementation, a sum of the total quantity of sub-indications in the first ECP slot indication and a total quantity of sub-indications in the second ECP slot indication is a total quantity of slots within the preset unit length; where the sub-indication is configured to indicate whether the corresponding slot is the ECP slot.
In an optional implementation, determining the ECP slot(s) within the preset unit length sent from the network side device based on the determination result of whether the ECP slot indication is valid for the slot carrying the SSB and the ECP slot indication, includes:
In an optional implementation, in response to the ECP slot indication being invalid for the slot carrying the SSB, and a total quantity of sub-indication in the ECP slot indication of the preset unit length is greater than a total quantity of first slots within the preset unit length, the method further includes:
In an optional implementation, the first slots within the preset unit length and the sub-indication corresponding to each first slot are determined in sequential order; or the first slots within the preset unit length and the sub-indication corresponding to each first slot are determined in reverse order.
In an optional implementation, if the ECP slot indication is valid for the slot carrying the SSB, after determining the slot carrying the SSB as the ECP slot, the method further includes:
In an optional implementation, the determining position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, includes:
In an optional implementation, the determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, further includes:
In an optional implementation, before determining the slots within the preset unit length sent from the network side device based on a determination result of whether the ECP slot indication is valid for the slot carrying the SSB and the ECP slot indication, the method further includes:
In the second aspect, embodiments of the disclosure provide a method for determining an ECP slot, applied to a network side device, and includes:
In an optional implementation, the method further includes:
In an optional implementation, the method further includes:
In an optional implementation, the sending the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In an optional implementation, the first preset quantity is a difference between a total quantity of slots within the preset unit length and a slot adjustment amount.
In an optional implementation, the sending the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In an optional implementation, a sum of the total quantity of sub-indications in the first ECP slot indication and a total quantity of sub-indications in the second ECP slot indication is a total quantity of slots within the preset unit length; where the sub-indication is configured to indicate whether the corresponding slot is the ECP slot.
In an optional implementation, the sending the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In an optional implementation, if the ECP slot indication is invalid for the slot carrying the SSB, determining the ECP slot indication for the preset unit length according to the sub-indication corresponding to each first slot within the preset unit length, includes:
In an optional implementation, the first slots within the preset unit length and the ECP slot indication are determined in sequential order; or
In an optional implementation, if the ECP slot indication is valid for the slot carrying the SSB, after determining that the slot carrying the SSB is the ECP slot, the method further includes:
In an optional implementation, determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, includes:
In an optional implementation, determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, further includes:
In an optional implementation, before sending the ECP slot indication of the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, the method further includes:
In a third aspect, embodiments of the disclosure provide a UE including a processor and a memory; where
In an optional implementation, the determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In an optional implementation, the determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In an optional implementation, the determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In an optional implementation, the first preset quantity is a difference between the total quantity of slots within the preset unit length and a slot adjustment amount.
In an optional implementation, the determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In an optional implementation, a sum of the total quantity of sub-indications in the first ECP slot indication and the total quantity of the sub-indications in the second ECP slot indication is the total quantity of slots within the preset unit length.
In an optional implementation, determining the ECP slot(s) within the preset unit length sent from the network side device based on the determination result of whether the ECP slot indication is valid for the slot carrying the SSB and the ECP slot indication, includes:
In an optional implementation, if the ECP slot indication is invalid for the slot carrying the SSB, and a total quantity of sub-indication in the ECP slot indication of the preset unit length is greater than a total quantity of first slots within the preset unit length, the method further includes:
In an optional implementation, the first slots within the preset unit length and the sub-indication corresponding to each first slot are determined in sequential order; or the first slots within the preset unit length and the sub-indication corresponding to each first slot are determined in reverse order.
In an optional implementation, if the ECP slot indication is valid for the slot carrying the SSB, after determining the slot carrying the SSB as the ECP slot, the method further includes:
In an optional implementation, the determining position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, includes:
In an optional implementation, the determining position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, further includes:
In an optional implementation, before determining the slot within the preset unit length sent from the network side device based on the determination result of whether the ECP slot indication is valid for the slot carrying the SSB and the ECP slot indication, the method further includes:
In a fourth aspect, embodiments of the disclosure provide a network side device including a processor and a memory; where
In an optional implementation, the operations further include:
In an optional implementation, the operations further includes:
In an optional implementation, sending the ECP slot indication of the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In an optional implementation, the first preset quantity is a difference between a total quantity of slots within the preset unit length and a slot adjustment amount.
In an optional implementation, sending the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In an optional implementation, a sum of the total quantity of sub-indications in the first ECP slot indication and a total quantity of sub-indications in the second ECP slot indication is a total quantity of slots within the preset unit length; where the sub-indication is configured to indicate whether the corresponding slot is an ECP slot.
In an optional implementation, sending the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In an optional implementation, if the ECP slot indication is invalid for the slot carrying the SSB, and a total quantity of sub-indications in the ECP slot indication of the preset unit length is greater than a total quantity of first slots within the preset unit length, the method further includes:
In an optional implementation, the first slots within the preset unit length and the sub-indication corresponding to each first slot are determined in sequential order; or the first slots within the preset unit length and the sub-indication corresponding to each first slot are determined in reverse order.
In an optional implementation, in response to the ECP slot indication being valid for the slot carrying the SSB, after determining that the slot carrying the SSB is the ECP slot, the method further includes:
In an optional implementation, the determining position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, includes:
In an optional implementation, the determining position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, further includes:
In an optional implementation, before determining the slot within the preset unit length sent from the network side device based on the determination result of whether the ECP slot indication is valid for the slot carrying the SSB and the ECP slot indication, the method further includes:
In a fifth aspect, embodiments of the disclosure provide a UE including:
In a sixth aspect, embodiments of the disclosure provide a network side device including:
In a seventh aspect, some embodiments of the disclosure provide a storage medium, storing computer-executable instructions, and the computer-executable instructions are used to cause a computer to execute the method in the first or second aspect.
In a solution provided by the above-mentioned embodiments of the disclosure, the ECP slot indication may be valid for the slot carrying the SSB, or may not be valid for the slot carrying the SSB, and the UE flexibly determines whether the ECP slot indication is valid for the slot carrying SSB according to the instruction from the network side device; and then according to the above determination result and the ECP slot indication, accurately determine the ECP slot(s) within the preset unit length sent from the network side device, which can be compatible with the flexibility of the existing design and guarantee network side devices are flexibly deployed.
In order to more clearly illustrate the embodiments of the disclosure, the following will briefly introduce the drawings that need to be used in the description of the embodiments. The drawings in the following description are only some embodiments of the disclosure.
In order to make the purpose, technical solution and advantages of the disclosure clearer, the disclosure will be further described in detail below in conjunction with the accompanying drawings. Apparently, the described embodiments are only some of the embodiments of the disclosure, not all of them.
Parts of the terms used in the embodiments of the disclosure are explained below to facilitate the understanding.
(1) In the embodiments of the disclosure, the terms “network” and “system” are often used interchangeably.
(2) The term “a plurality of” in the embodiments of the disclosure refers to two or more, and other quantifiers are similar.
(3) The terms “first” and “second” in the embodiments of the disclosure are only used for descriptive purposes, and cannot be understood as indicating or implying relative importance or implicitly indicating the quantity of indicated technical features. Thus, a feature defined as “first” and “second” may explicitly or implicitly indicates one or more of these features being included.
(4) “and/or” in the embodiment of the disclosure describes the association relationship of associated objects, indicating that there may be three kinds of relationships, for example, A and/or B, which may mean: A exists alone, A and B exist simultaneously, and B exists alone. The character “/” generally indicates that the contextual objects are an “or” relationship.
(5) The UE involved in the embodiment of the disclosure may be a device that provides voice and/or data connectivity to users, a handheld device with a wireless connection function, or other processing devices connected to a wireless modem. In different systems, the name of the UE may be different. The wireless UE can communicate with one or more core networks (CN) via the radio access network (RAN), and the wireless UE can be a mobile terminal device, such as a mobile phone (or called a “cellular” phone) and computers with mobile terminals, for example portable, pocket, hand-held, computer built-in or vehicle-mounted mobile devices, which exchange voice and/or data with the radio access network. For example, Personal Communication Service, PCS telephone, cordless telephone, Session Initiated Protocol, SIP telephone, Wireless Local Loop, WLL station, Personal Digital Assistant (PDA) and other devices. A wireless UE may also be called a system, a subscriber unit, a subscriber station, a mobile station, a mobile station, a remote station, an access point, a remote terminal, an access terminal, a user terminal, a user agent, and a user device are not limited in this embodiment of the disclosure.
(6) The network side device involved in the embodiment of the disclosure may be a base station, and the base station may include multiple cells providing services for the UE. Depending on the specific application, the base station can also be called an access point, or it can be a device in the access network that communicates with the wireless terminal device through one or more sectors on the air interface, or other names. The network side device can be used to replace received air frames with Internet Protocol (IP) packets, and serve as a router between the wireless terminal device and the rest of the access network, where the rest of the access network can include IP communication network. The network side device can also coordinate attribute management of the air interface. For example, the network side device involved in the embodiment of the disclosure may be a Global System for Mobile communications (GSM) or a network side device Base Transceiver Station (BTS) in Code Division Multiple Access (CDMA), may also be a network side device (NodeB) in Wide-band Code Division Multiple Access (WCDMA), and may also be an evolution network side device (eNB or e-NodeB) in a long term evolution, LTE system, a 5G base station (gNB) in the 5G network architecture (next generation system), or a Home evolved Node B (HeNB), a relay node, a home base station, a pico base station, etc., are not limited in this embodiment of the disclosure. In some network structures, the network side device may include a centralized unit (CU) node and a distributed unit (DU) node, and the centralized unit and the distributed unit may also be arranged geographically separately.
One or more antennas can be used between the network side device and the UE to perform Multi Input Multi Output (MIMO) transmission. The MIMO transmission can be single user MIMO (SU-MIMO) or multi user MIMO (MU-MIMO). According to the shape and number of root antenna combinations, the MIMO transmission can be 2D-MIMO, 3D-MIMO, FD-MIMO, or massive-MIMO, or diversity transmission, precoding transmission, or beamforming transmission, etc.
The technical solutions provided by the embodiments of the disclosure can be applied to various systems, especially 5G systems. For example, the applicable system may be global system of mobile communication (GSM) system, code division multiple access (CDMA) system, Wideband Code Division Multiple Access (WCDMA) general packet radio service (GPRS) system, long term evolution (LTE) system, long term evolution advanced (LTE-A) system, universal mobile telecommunications system (UMTS) Worldwide interoperability for microwave access (WiMAX) system, 5G NR system, etc. These various systems all include UE and network side device. The system may also include a core network part, such as an Evolved Packet System (EPS), a 5G system (5GS), and the like.
In the LTE system, the transmission position of the SSB is fixed.
In the NR system, a radio frame includes multiple candidate positions.
In order to solve the problem of determining the ECP slot in the NR system, the embodiment of the disclosure provides a method for determining an ECP slot, a user equipment, and a network side device. In the embodiments, the ECP slot indication may be valid for the slot carrying the SSB, or invalid for the slot carrying the SSB. The UE flexibly determines whether the ECP slot indication is valid for a slot carrying the SSB according to the instruction from the network side device; and then determines an ECP slot sent from the network side device within a preset unit length according to determination result and the ECP slot indication, which can be compatible with the flexibility of the existing design and ensure the flexible deployment of network side devices.
The embodiments of the disclosure may be applied to a 5G system, and may also be applied to other systems.
Embodiments of the disclosure will be described in detail below in conjunction with the accompanying drawings.
During the description, implementations by the UE and the network side device, and the implementation of cooperation between the UE and the network side device will be described. Such description does not mean that the UE and the network side device must be used together or must be used separately. In fact, when the UE and the network side device are used separately, they also solve the problems of the UE and the network side device respectively. When the UE and the network side device are used in combination, a better technical effect will be obtained.
S301: sending, by a network side device, an ECP slot indication for a preset unit length to the UE according to whether the ECP slot indication is valid for a slot carrying an SSB.
In the NR system, the slot for sending SSB is more flexible, and SSB can be communicated through any one or more candidate positions. Therefore, the number of slots and position symbols for sending SSB are not fixed. Whether the ECP slot indication is valid for a slot carrying the SSB can also be flexibly set. Exemplarily, the network side device determines whether the ECP slot indication is valid for the slot carrying the SSB according to the service requirement.
During implementation, the network side device determines the ECP slot indication for a preset unit length to be sent to the UE according to whether the ECP slot indication is valid for a slot carrying the SSB or is invalid for a slot carrying the SSB. That is, for a preset unit length, an ECP slot indication being valid for a slot carrying an SSB and an ECP slot indication being invalid for a slot carrying an SSB are different.
In the embodiments, the above ECP slot indication includes a plurality of sub-indications, and each sub-indication is configured to indicate whether a corresponding slot is the ECP slot. That is, if the ECP slot indication is valid for a slot carrying the SSB, the ECP slot indication includes a sub-indication for indicating whether the slot carrying the SSB is an ECP slot; if the ECP slot indication is invalid for the slot carrying the SSB, the ECP slot indication does not include sub-indication for indicating whether the slot carrying the SSB is an ECP slot.
S302: determining, by the UE, whether the ECP slot indication is valid for the slot carrying the SSB according to an indication from the network side device.
As mentioned above, for a preset unit length, an ECP slot indication being valid for a slot carrying an SSB and an ECP slot indication being invalid for a slot carrying an SSB are different. Therefore, the UE needs to determine whether the ECP slot indication is valid for the slot carrying the SSB according to the indication from the network side device; and then the UE can accurately determine the ECP slot(s) within the preset unit length after receiving the slot(s) of the preset unit length.
S303: determining, by the UE, ECP slot(s) within the preset unit length sent from the network side device, according to a determination result of whether the ECP slot indication is valid for a slot carrying the SSB, and the ECP slot indication.
In the above solution, the ECP slot indication may be valid for a slot carrying the SSB, or may not be valid for a slot carrying the SSB, and the UE flexibly determines whether the ECP slot indication is valid for a slot carrying the SSB according to the instruction from the network side device, and the ECP slot(s) within the preset unit length sent from the network side device can be accurately determined according to the above determination result and the ECP slot indication, which can be compatible with the flexibility of the existing design and ensure the flexible deployment of the network side device.
S401: sending, by the network side device, an ECP slot indication for a preset unit length to the UE according to whether the ECP slot indication is valid for a slot carrying an SSB.
For a specific implementation manner of S401, reference may be made to the foregoing embodiments, and details are not repeated here.
S402: sending, by the network side device, a higher layer signaling including configuration information to the UE.
The above-mentioned higher layer signaling may be a system broadcast message communicated over a broadcast control channel, or a broadcast/multicast configuration message communicated over a multicast control channel, or a UE-based radio link control message, or a control message based on a media access layer, which is not specifically limited in the embodiment.
During implementation, configuration information may be added into the above-mentioned higher layer signaling, which is indicated as “isSSBslotinlcuded”. Exemplarily, when “isSSBslotinlcuded” is configured as 1, it indicates that the ECP slot indication is valid for a slot carrying the SSB, that is, the ECP slot indication includes sub-indication for indicating whether the slot carrying the SSB is an ECP slot; when “isSSBslotinlcuded” is configured as 0, it means that the ECP slot indication is invalid for a slot carrying the SSB, that is, there is no sub-indication in the ECP slot indication for indicating whether the slot carrying the SSB is an ECP slot.
It can be understood that the above configuration of “isSSBslotinlcuded” is just an example. When “isSSBslotinlcuded” is configured as 1, it can indicate that the ECP slot indication is invalid for a slot carrying the SSB; when “isSSBslotinlcuded” is configured as 0, it can indicate that the ECP slot indication is valid for the slot carrying the SSB; or “isSSBslotinlcuded” can be configured as other values, which are not specifically limited in the disclosure, and can be configured according to actual application scenarios.
S403: determining, by the UE, whether the ECP slot indication is valid for a slot carrying an SSB according to the configuration information.
As mentioned above, the configuration value of the configuration information indicates whether the ECP slot indication is valid for a slot carrying the SSB. Correspondingly, the UE can determine whether the ECP slot indication is valid for a slot carrying the SSB according to the configuration information. For the specific configuration of the information, the above mentioned steps can be referred, which will not be repeated here.
S404: determining, by the UE, an ECP slot for the preset unit length sent from the network side device, according to a determination result of whether the ECP slot indication is valid for a slot carrying the SSB, and the ECP slot indication.
For a specific implementation manner of S404, reference may be made to the foregoing embodiments, and details are not repeated here.
In the above solution, the network side device adds configuration information to the higher layer signaling to make an explicit indication. The configuration information indicates whether the ECP slot indication is valid for a slot carrying the SSB. The UE can directly determine whether the ECP slot indication is valid for the slot carrying the SSB according to the configuration information.
S501: sending, by the network side device, an ECP slot indication for a preset unit length to the UE according to whether the ECP slot indication is valid for a slot carrying an SSB.
For a specific implementation manner of S501, reference may be made to the foregoing embodiments, and details are not repeated here.
S502: sending, by the network side device, a higher layer signaling not including configuration information to the UE.
Here, the specific implementation manner of the higher layer signaling may refer to the foregoing embodiments, which will not be repeated here.
During implementation, if the ECP slot indication being valid for whether the slot carrying the SSB is indicated based on a default rule, the network side device may send a higher layer signaling not including configuration information to the UE. The UE and the network side device follow the same default rule, and the default rule can be set according to the actual application scenario. In some optional embodiments, the default rule is that the ECP slot indication is valid for a slot carrying the SSB. In some other optional embodiments, the default rule is that the ECP slot indication is invalid for a slot carrying the SSB.
S503: determining, by the UE, whether the ECP slot indication is valid for the slot carrying the SSB based on a default rule.
When the network side device sends a higher layer signaling that does not include configuration information, it means that whether the ECP slot indication is valid for a slot carrying the SSB is determined based on a default rule. For example, the default rule is that the ECP slot indication is valid for the slot carrying the SSB. After receiving the higher layer signaling that does not include configuration information, the UE determines that the ECP slot indication is valid for the slot carrying the SSB; or, when the default rule is that the ECP slot indication is invalid for the slot carrying the SSB, and the UE determines that the ECP slot indication is invalid for the slot carrying the SSB, after receiving the higher layer signaling that does not include the configuration information.
S504: determining, by the UE, ECP slot(s) within the preset unit length sent from the network side device, according to a determination result of whether the ECP slot indication is valid for a slot carrying the SSB, and the ECP slot indication.
For a specific implementation manner of S504, reference may be made to the foregoing embodiments, and details are not repeated here.
In the above solution, the UE and the network side device follow the same default rule, and the network side device sends the higher layer signaling that does not include configuration information to the UE, and the UE determines whether the ECP slot indication is valid for a slot carrying the SSB based on the default rule, which can perform explicit instructions in a more convenient way to meet the needs of different application scenarios.
It can be understood that the above-mentioned embodiment in
S601: in response to determining that the ECP slot indication is valid for a slot carrying an SSB, configuring, by the network side device, an ECP slot indication in which a total quantity of sub-indications is greater than a first preset quantity; otherwise, configuring an ECP indication in which a the total quantity of sub-indications is not greater than the first preset quantity.
As mentioned above, the sub-indication is configured to indicate whether a corresponding slot is an ECP slot.
In some optional embodiments, the first preset quantity is a difference between the total quantity of slots within the preset unit length and a slot adjustment amount. That is, the first preset quantity N1=slotduration−K, here, slotduration is the total quantity of slots within a preset unit length, and K is the slot adjustment amount.
Taking SCS=15 KHz and the preset unit length as one radio frame as an example, the total quantity of slots in the preset unit length is 10, that is, when SCS=15 KHz, there are 10 slots in one radio frame.
The above-mentioned slot adjustment amount can be 0, 1, 4, etc., and the embodiments do not specifically limit the determination method of the above-mentioned slot adjustment amount, for example:
The above methods for determining the slot adjustment amount are illustrated as examples. In implementation, as long as the UE determines the slot adjustment amount in the same way as the network-side device, the method is OK, no further examples are given here.
S602: For any preset unit length, determining, by the UE, whether the total quantity of sub-indications in the ECP slot indication for the preset unit length is greater than the first preset quantity; in response to determining that the total quantity of sub-indications in the ECP slot indication for the preset unit length is greater than the first preset number, determining that the ECP slot indication is valid for the slot carrying the SSB; in response to determining that the total quantity of sub-indications in the ECP slot indication for the preset unit length is not greater than the first preset number, determining that the ECP slot indication is invalid for the slot carrying the SSB.
In the embodiments, the UE can use any of the above methods to determine the slot adjustment amount (as long as the UE uses the same method as the network side device to determine the slot adjustment amount), and then determine the first preset quantity. Comparing the total quantity of sub-indications in the ECP slot indication for the preset unit length (that is, how many slots in total can be indicated by the ECP slot indication) with the first preset quantity, in response to determining that the total quantity of sub-indications in the ECP slot indication for the preset unit length is greater than the first preset number, determining that the ECP slot indication is valid for the slot carrying the SSB; and in response to determining that the total quantity of sub-indications in the ECP slot indication for the preset unit length is not greater than the first preset number, determining that the ECP slot indication is invalid for the slot carrying the SSB.
S603: determining, by the UE, ECP slot(s) within the preset unit length sent from the network side device according to a determination result of whether the ECP slot indication is valid for a slot carrying the SSB, and the ECP slot indication.
For a specific implementation manner of S603, reference may be made to the foregoing embodiments, and details are not repeated here.
In the above solution, the network side device configures the relationship between the total quantity of sub-indications in the ECP slot indication and the first preset quantity according to whether the ECP slot indication is valid for a slot carrying the SSB. Correspondingly, the UE can accurately determine whether the ECP slot indication is valid for a slot carrying the SSB based on the relationship between the total quantity of sub-indications in the ECP slot indication and the first preset quantity. In this case, the implicit indication is more flexible, thereby meeting the needs of different application scenarios.
S701: in response to determining that the ECP slot indication is valid for a slot carrying an SSB, configuring for a preset unit length, by a network side device, a first ECP slot indication that is invalid for the slot carrying the SSB, and a second ECP slot indication that is valid for the slot carrying the SSB; and sending the second ECP slot indication to the UE after sending the first ECP slot indication to the UE; and in response to determining that the ECP slot indication is invalid for the slot carrying the SSB, configuring, by the network side device, one ECP slot indication corresponding to the preset unit length.
In implementation, for any preset unit length, two kinds of ECP slot indication can be configured, the first ECP slot indication includes a second preset number of sub-indications, and is invalid for the slot carrying the SSB; the second ECP slot indication includes a third preset number of sub-indications, and is valid for the slot carrying the SSB. In some embodiments, the second ECP slot indication is also valid for a slot not carrying the SSB that is not indicated by the first ECP slot indication.
In the embodiments, in order for the UE to distinguish between the first ECP slot indication and the second ECP slot indication, the network side device needs to first send the first ECP slot indication to the UE, and then send the second ECP slot indication to the UE.
In some optional embodiments, a sum of the total quantity of sub-indications in the first ECP slot indication and the total quantity of sub-indications in the second ECP slot indication is the total quantity of slots within the preset unit length. That is, the total quantity of slots within the preset unit length N0 is equal to (N2+N3), where N2 is the total quantity of sub-indications in the first ECP slot indication (that is, the second preset quantity), and N3 is the total quantity of sub-indication in the second ECP slot (that is, the third preset quantity).
Still taking SCS=15 KHz and the preset unit length is one radio frame as an example, the total quantity of slots in the preset unit length is 10, that is, when SCS=15 KHz, there are 10 slots in one radio frame; if the total quantity of sub-indications in the first ECP slot indication is 6, the total quantity of sub-indications in the second ECP slot indication is 4.
S702: For any preset unit length, in response to receiving one ECP slot indication corresponding to the preset unit length, determining, by the UE, that the ECP slot indication is invalid for a slot carrying the SSB; in response to receiving two ECP slot indications corresponding to the preset unit length, determining, by the UE, that the first ECP slot indication is invalid for the slot carrying the SSB, and the second ECP slot indication is valid for the slot carrying the SSB.
In the embodiments, if the UE only receives one ECP slot indication corresponding to the preset unit length, it determines that the ECP slot indication is invalid for a slot carrying the SSB.
If the UE receives two ECP slot indications corresponding to the preset unit length, it determines that the first ECP slot indication received first is not valid for the slot carrying the SSB, and the second ECP slot indication received later is valid for the slot carrying the SSB.
S703: determining, by the UE, ECP slot(s) within the preset unit length sent from the network side device according to a determination result of whether the ECP slot indication is valid for the slot carrying the SSB, and the ECP slot indication.
For a specific implementation manner of S703, reference may be made to the foregoing embodiments, and details are not repeated here.
In the above solution, the network side device configures the quantity of ECP slot indications corresponding to the preset unit length according to whether the ECP slot indication is valid for a slot carrying an SSB. The UE can accurately determine whether the ECP slot indication is valid for the slot carrying the SSB according to the quantity of ECP slot indication corresponding to the preset unit length, and thus the implicit indication can be performed more flexibly to meet the requirements of different application scenarios.
For a scenario where the ECP slot indication is invalid for a slot carrying an SSB,
S801: for any preset unit length, in response to that the ECP slot indication is invalid for a slot carrying an SSB, determining, by the network side device, first slots indicatable in the preset unit length from slots not carrying the SSB in the preset unit length according to a sequence of slots not carrying the SSB in the preset unit length and a preset indication rule, and determining sub-indication corresponding to each first slot in the preset unit length.
In the embodiments, the above-mentioned preset indication rule is preset, such as including which slot within the preset unit length needs to be indicated, and the specific indication rule can be set according to the actual application scenario.
Exemplarily, the network side device can determine which slot can be indicated based on the preset indication rule, and determine the first slots that can be indicated within the preset unit length according to the sequence of slots not carrying the SSB within the preset unit length, and then determine sub-indication corresponding to each first slot (indicating that the corresponding slot is an ECP slot, or indicating that the corresponding slot is not an ECP slot) according to whether the first slot is an ECP slot.
S802: determining, by the network side device, the ECP slot indication for the preset unit length based on sub-indication corresponding to each first slot for the preset unit length.
In implementation, the sub-indication corresponding to each first slot within the preset unit length may be combined to obtain corresponding ECP slot indication.
In some embodiments, the quantity of sub-indications included in the ECP slot indication is fixed. However, when the ECP slot indication is invalid for a slot carrying the SSB, the first slot is determined from slots not carrying the SSB, then there may be a case that the total quantity of sub-indications in the ECP slot indication for the preset unit length is greater than the total quantity of the first slots within the preset unit length. For example, the ECP slot indication for the preset unit length includes 8 sub-indications, and there are 6 first slots in the preset unit length, so there are two remaining sub-indications without corresponding first slots.
Based on this, in some optional embodiments, if the total quantity of sub-indications in the ECP slot indication for the preset unit length is greater than the total quantity of first slots in the preset unit length, the following is further included:
Still take the above two remaining sub-indications as an example:
In implementation, the sub-indication corresponding to each first slot within the preset unit length and the remaining sub-indication may be combined to obtain corresponding ECP slot indication.
S803: determining, by the UE, whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device.
For the specific implementation manner of S803, reference may be made to the foregoing embodiments, and details are not repeated here.
S804: For any preset unit length, in response to that the ECP slot indication is invalid for a slot carrying an SSB, determining first slots that can be indicated in the preset unit length from slots not carrying the SSB in the preset unit length, according to a sequence of slots not carrying the SSB in the preset unit length and a preset indication rule.
Determination of the first slots that can be indicated within the preset unit length by the UE is similar to the above-mentioned determination of the first slots that can be indicated within the preset unit length by the network side device, and will not be repeated here.
S805: determining, by the UE, the sub-indication corresponding to each first slot in the preset unit length according to the sequence of the first slots in the preset unit length and the ECP slot indication for the preset unit length.
In an implementation, each first slot has a corresponding sub-indication for indicating that the first slot is an ECP slot or not an ECP slot. Based on this, the UE needs to determine the sub-indication corresponding to each first slot in the preset unit length according to the sequence of the first slots in the preset unit length, and the ECP slot indication of the preset unit length.
As mentioned above, there may be a case that the total quantity of sub-indications in the ECP slot indication of the preset unit length is greater than the total quantity of the first slots in the preset unit length. In this case, the ECP slot indication for the preset unit length may further include a remaining sub-indication being valid for a first slot in a next preset unit length, and/or a sub-indication being valid for a second slot in the preset unit length, in addition to the sub-indication being valid for the first slot in the preset unit length.
Based on this, in some optional embodiments, if the total quantity of sub-indication in the ECP slot indication of the preset unit length is greater than the total quantity of first slots in the preset unit length, the following is further included:
Still take the above two remaining sub-indication as an example:
S806: for any first slot within the preset unit length, in response to that the sub-indication indicates that a corresponding slot is an ECP slot, determining, by the UE, the first slot as an ECP slot.
As mentioned above, the sub-indication is configured to indicate that the corresponding first slot is an ECP slot, or not an ECP slot. For any first slot within the preset unit length, if the sub-indication indicates that the corresponding slot is ECP slot, the first slot can be accurately determined as an ECP slot.
In addition, in some optional embodiments above, there may be remaining sub-indication being valid for the second slots within the preset unit length. Correspondingly, it needs to determine whether these second slots are ECP slots based on the remaining sub-indication corresponding to these second slots.
In some optional embodiments, the first slots within the preset unit length and the sub-indication corresponding to each first slot are determined in a sequential manner.
That is, the above S801 can be implemented in the following manner.
For any preset unit length, according to a sequence of slots not carrying the SSB in the preset unit length and a preset indication rule, the network side device determines the first slots that can be indicated within the preset unit length in sequential order from the slots not carrying the SSB in the preset unit length, and determines in sequential order sub-indication corresponding to each first slot within the preset unit length.
The above S802 can be realized in the following ways.
The network side device determines the ECP slot indication of the preset unit length based on the sub-indication corresponding to each first slot within the preset unit length in sequential order.
The above S804 can be realized in the following manner.
For any preset unit length, determining, by the UE, the first slots that may be indicated within the preset unit length in sequential order from the slots not carrying the SSB in the preset unit length according to a sequence of the slots not carrying the SSB in the preset unit length and the preset indication rule.
The above S805 can be realized in the following manner.
Determining, by the UE, sub-indication corresponding to each first slot in the preset unit length in sequential order according to the sequence of the first slots in the preset unit length and the ECP slot indication for the preset unit length.
Following is specific example for illustration.
Taking SCS=15 KHz and the preset unit length is one radio frame as an example, there are 10 slots in the preset unit length, which are respectively indicated as slot #0 to slot #9. Slot #1 and slot #2 are slots carrying the SSB, the preset indication rule is to indicate a second slot, a third slot, a fourth slot, a seventh slot, an eighth slot, and a ninth slot within the preset unit length. The network side device determines in sequential order that a second one, a third one, a fourth one, a seventh one, and an eighth one of slots not carrying the SSB are respectively slot #3, slot #4, slot #5, slot #8 and slot #9, and there is no ninth one of slots not carrying the SSB within the preset unit length. The network side device determines the sub-indications corresponding to slot #3, slot #4, slot #5, slot #8 and slot #9 in sequential order, and determines the ECP slot indication for the radio frame based on a sequence of the sub-indication corresponding to slot #3, the sub-indication corresponding to slot #4, the sub-indication corresponding to slot #5, the sub-indication corresponding to slot #8, and the sub-indication corresponding to slot #9. The UE determines the second one, the third one, the fourth one, the seventh one, and the eighth one of slots not carrying the SSB within the preset unit length as slot #3, slot #4, slot #5, slot #8, and slot #9 in sequential order, and respectively determines sub-indications corresponding to slot #3, slot #4, slot #5, slot #8, and slot #9.
The above example is only for illustrating how to determine in sequential order the first slots within the preset unit length and the sub-indication corresponding to each first slot, and the disclosure is not limited thereto.
In some other optional embodiments, the first slots within the preset unit length and the sub-indication corresponding to each first slot are determined a reverse order.
That is, the above S801 can be implemented in the following manner.
For any preset unit length, according to a sequence of slots not carrying the SSB in the preset unit length and the preset indication rule, determining, by the network side device, the first slots that can be indicated within the preset unit length in a reverse sequence from the slots not carrying the SSB in the preset unit length, and determining the sub-indication corresponding to each first slot in the preset unit length in the reverse sequence.
The above S802 can be realized in the following ways.
Determining, by the network side device, the ECP slot indication for the preset unit length based on the sub-indication corresponding to each first slot within the preset unit length in the reverse sequence.
The above S804 can be realized in the following manner.
For any preset unit length, according to a sequence of slots not carrying the SSB in the preset unit length and the preset indication rule, determining, by the UE, the first slots that may be indicated within the preset unit length from the slots not carrying the SSB in the preset unit length in a reverse sequence.
The above S805 can be realized in the following manner.
According to the sequence of the first slots in the preset unit length and the ECP slot indication for the preset unit length, determining sub-indication corresponding to each first slot in the preset unit length in a reverse sequence.
Following is a specific example for illustration.
Taking SCS=15 KHz and the preset unit length is one radio frame as an example, there are 10 slots in the preset unit length, which are respectively indicated as slot #0 to slot #9 in sequence, and slot #1 and slot #2 are slots carrying the SSB, the preset indication rule is that the first one to the eighth one of slots within the preset unit length need to be indicated, and the network side device determines in reverse sequence that the first one to the eighth one of slots not carrying the SSB within the preset unit length are respectively slot #9, slot #8, slot #7, slot #6, slot #5, slot #4, slot #3, and slot #0. The network side device determines a sub-indication corresponding to slot #9, a sub-indication corresponding to slot #8, a sub-indication corresponding to slot #7, a sub-indication corresponding to slot #6, a sub-indication corresponding to slot #5, a sub-indication corresponding to slot #4, a sub-indication corresponding to slot #3 and a sub-indication corresponding to slot #0 in sequential order, and determines the ECP slot indication of the radio frame, and further determines the ECP slot indication for the radio frame according to the sub-indication corresponding to slot #9, the sub-indication corresponding to slot #8, the sub-indication corresponding to slot #7, the sub-indication corresponding to slot #6, the sub-indication corresponding to slot #5, the sub-indication corresponding to slot #4, the sub-indication corresponding to slot #3, and the sub-indication corresponding to slot #0 in that order. The UE determines in reverse sequence that the first one to the eighth one of slots not carrying the SSB within the preset unit length are respectively slot #9, slot #8, slot #7, slot #6, slot #5, slot #4, slot #3 and slot #0, and determines sub-indications respectively corresponding to slot #9, slot #8, slot #7, slot #6, slot #5, slot #4, slot #3 and slot #0.
The above example is only for illustrating how to determine the first slots within the preset unit length and the sub-indication corresponding to each first slot in reverse sequence, and the disclosure is not limited thereto.
By determining the first slots within the preset unit length in reverse sequence and the sub-indication corresponding to each first slot, the network side device can centrally configure the positions for sending the SSB in the first few slots of the preset unit length. In this way, the impact of deploying the SSB by the network side device on the ECP slot indication is reduced.
For a scenario where the ECP slot indication is valid for a slot carrying an SSB,
S901: for any preset unit length, in response to that the ECP slot indication is valid for a slot carrying an SSB, determining, by the network side device, first slots that can be indicated in the preset unit length from all slots in the preset unit length according to a sequence of the all slots in the preset unit length and a preset indication rule, and determining a sub-indication corresponding to each first slot in the preset unit length.
Here, for the preset indication rule, reference may be made to the above-mentioned embodiments.
Exemplarily, the network side device can determine which slot can be indicated based on the preset indication rule, determine the first slot that can be indicated within the preset unit length according to the sequence of all slots within the preset unit length, and then determine the sub-indication corresponding to each first slot according to whether the first slot is an ECP slot (indicating that the corresponding slot is an ECP slot, or indicating that the corresponding slot is not an ECP slot).
S902: determining, by the network side device, the ECP slot indication for the preset unit length based on the sub-indication corresponding to each first slot within the preset unit length.
S903: determining, by the UE, whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device.
The specific embodiments of the steps S902-S903 may refer to the above-mentioned embodiments, which will not be repeated here.
S904: for any preset unit length, in response to that the ECP slot indication is valid for the slot carrying the SSB, determining the first slot that can be indicated within the preset unit length from all slots within the preset unit length, according to the sequence of the all slots in the preset unit length and the preset indication rule.
The determination of the first slot that can be indicated within the preset unit length at the UE is similar to the above determination of the first slot that can be indicated within the preset unit length at the network side device, which will not be repeated here.
S905: determining, by the UE, the sub-indication corresponding to each first slot in the preset unit length according to the sequence of the first slots in the preset unit length and the ECP slot indication for the preset unit length.
S906: for any first slot within the preset unit length, in response to that the sub-indication indicates that the corresponding slot is an ECP slot, determining, by the UE, the first slot as an ECP slot.
For the specific implementation of steps S905-S906, reference may be made to the above-mentioned embodiments, which will not be repeated here.
For a scenario where the ECP slot indication is valid for a slot carrying an SSB, the above-mentioned first slot within the preset unit length and the sub-indication corresponding to each first slot can also be determined in sequential order or in reverse order. For the specific implementation manner, reference may be made to the foregoing embodiments, and details are not repeated here.
In implementation, for the scenario where the ECP slot indication is valid for a slot carrying an SSB, the slot carrying the SSB may be indicated as an ECP slot. Since the SSB needs to be sent using NCP, when the slot carrying the SSB is indicated as the ECP slot, only some of the position symbols are position symbols for the ECP.
Based on this, in some optional embodiments, in response to that the ECP slot indication is valid for the slot carrying the SSB, and it is determined that the slot carrying the SSB is the ECP slot, after S902, the method further includes:
Correspondingly, after S906, the method further includes:
Referring to
Referring to
Based on the SSB position symbol in the slot carrying the SSB, determining the position symbol for the NCP can be realized by but not limited to the following methods.
1) The SSB position symbol in the slot carrying the SSB is determined as the position symbol for the NCP. For example:
2) All the position symbols in the half, where the position symbols for SSB are located, of the slot carrying the SSB are determined as the position symbols for the NCP. For example:
The above two methods are only illustrative, and other methods may be used to determine the position symbols used for the NCP during implementation.
Further, besides that the NCP is used for sending the SSB, it is also necessary to send the PDCCH of the system broadcast message using the NCP. Therefore, when the slot carrying the SSB is determined as an ECP slot, some position symbols are position symbols for the NCP and used to send the PDCCH of the system broadcast message.
In some optional embodiments, determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB further includes:
By using ECP symbol to schedule PDSCH or communicate PDCCH, it can be better compatible with NR unicast design.
S1101: determining, by the network side device, a slot carrying an SSB and/or a slot not carrying an SSB within the preset unit length.
As mentioned above, in some scenarios, the ECP slot indication is invalid for the slot carrying the SSB, and the first slot needs to be determined from the slots not carrying the SSB within the preset unit length; in some scenarios, the ECP slot indication is valid for the slot carrying the SSB, and the slot carrying the SSB is the ECP slot, it is necessary to determine the position symbol used for the NCP in the slot carrying the SSB. Based on this, the network side device and the UE need to determine the slots carrying the SSB and/or the slots not carrying the SSB within the preset unit length.
Still taking SCS=15 KHz and the preset unit length as one radio frame as an example, according to the above-mentioned
It can be understood that the above inOneGroup value is just an example. When the inOneGroup value is 1, it can indicate that the corresponding candidate position is not used for sending the SSB; when the inOneGroup value is 0, it can indicate that the corresponding candidate position is used for sending the SSB; or inOneGroup can be configured as other values, which are not specifically limited in this disclosure, and can be configured according to actual application scenarios.
In addition, the network side device can further instruct the sending period for the SSB burst block through the SSB period parameter (ssb-PeriodicityServingCell) of the serving cell, and the sending period can be 5 ms, 10 ms, 20 ms, 40 ms, 80 ms or 160 ms, etc.
S1102: sending, by the network side device, an ECP slot indication for a preset unit length to the UE according to whether the ECP slot indication is valid for a slot carrying an SSB.
S1103: determining, by the UE, whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device.
For the specific implementation of the steps S1102-S1103, reference may be made to the above-mentioned embodiments, which will not be repeated here.
S1104: determining, by the UE, the slots carrying the SSB and/or the slots not carrying the SSB within the preset unit length.
As mentioned above, the network side device can instruct whether each candidate position is used for sending SSB through the inOneGroup value in the SSB position parameter ssb-PositionsInBurst. Correspondingly, the UE determines whether each candidate position is used for sending the SSB according to the inOneGroup value in the SSB position parameter ssb-PositionsInBurst.
S1105: determining, by the UE, ECP slot(s) within the preset unit length sent from the network side device, according to a determination result of whether the ECP slot indication is valid for the slot carrying the SSB, and the ECP slot indication.
For a specific implementation manner of S1105, reference may be made to the foregoing embodiments, and details are not repeated here.
The following will describe in detail in conjunction with three specific embodiments.
The network side device sends a higher layer signaling to UE, such as system broadcast message through broadcast control channel, broadcast/multicast configuration message through multicast control channel, UE-based radio link control message or control message based on the media access layer. Referring to the above-mentioned
Based on the system broadcast message, the UE obtains the inOneGroup value in the SSB position parameter ssb-PositionsInBurst sent from the network side device, and determines whether the corresponding candidate position is used for sending the SSB based on the inOneGroup value. In the embodiments, SCS=15 KHz, and the preset unit length is one radio frame. As shown in
In the embodiments, the preset indication rule is to indicate the second one, the third one, the fourth one, the seventh one, the eighth one, and the ninth one of slots in the preset unit length, the first slots in the preset unit length and the sub-indication corresponding to each first slot is determined in sequential order.
If the ECP slot indication is invalid for the slot carrying the SSB, the slot carrying the SSB needs to be skipped (that is, slot #1 and slot #2 are skipped). After skipping slot #1 and slot #2, the second one, the third one, the fourth one, the seventh one, and the eighth one of slots not carrying the SSB are respectively slot #3, slot #4, slot #5, slot #8, and slot #9, that is, these five slots are the first slots indicatable. There is no ninth one of slots not carrying the SSB within the preset unit length. In addition, slot #0, slot #6, and slot #7 are the second slots which are slots not carrying the SSB except for the first slots. Referring to
In some scenarios, b5 may indicate the first one of second slots in the above radio frame, that is, slot #0; in some other scenarios, b5 may indicate the first one of first slots in the next radio frame.
If the ECP slot indication is valid for the slot carrying the SSB, there is no need to skip the slot carrying the SSB. Among all the slots in the radio frame, the second one, the third one, the fourth one, the seventh one, the eighth one, and the ninth one of slots are slot #1, slot #2, slot #3, slot #6, slot #7, and slot #8 respectively, that is, these six slots are the first slots that can be indicated. Referring to
Since the SSB still needs to use the NCP for transmission, when the above-mentioned slot #1 and slot #2 are ECP slots, only part of the position symbols are used for the ECP. Referring to
Embodiment 1 takes the preset unit length as one radio frame as an example. In practical applications, the preset unit length can also be other lengths, such as 5 ms (5 slots when SCS=15 KHz), or 20 ms (20 slots when SCS=15 KHz), or 4 ms (4 slots when SCS=15 KHz). Embodiment 1 takes the ECP slot indication to include 6 sub-indications as an example, the sub-indication included in the ECP slot indication in practical applications may be more or less, such as 5, 10, or 8. The position symbols used for the ECP in the ECP slot carrying the SSB in Embodiment 1 are only illustrative, and the disclosure is not limited thereto.
If the network side device determines that the ECP slot indication is valid for a slot carrying an SSB, ECP slot indication is configured in such a way that the total quantity of sub-indications in the ECP slot indication is greater than the first preset quantity; otherwise, ECP slot indication is configured in such a way that the total quantity of sub-indication in the ECP slot indication is not greater than the first preset quantity. For a specific implementation manner of this step, reference may be made to the above-mentioned embodiment in
Based on the system broadcast message, the UE obtains the inOneGroup value in the SSB position parameter ssb-PositionsInBurst sent from the network side device, and determines whether the corresponding candidate position is used for sending the SSB based on the inOneGroup value. In the embodiments, SCS=15 KHz, and the preset unit length is one radio frame. As shown in
In this embodiment, the first slots within the preset unit length and the sub-indication corresponding to each first slot are determined in reverse order; the first preset quantity is 8, and the total quantity of sub-indications in the ECP slot indication is greater than 8, and the ECP slot indication is valid for the slot carrying the SSB. The total quantity of sub-indications in the ECP slot indication is less than or equal to 8, and the ECP slot indication is invalid for the slot carrying the SSB.
If the preset indication rule is to indicate the first to eighth slots within the preset unit length, the total quantity of sub-indications in the ECP slot indication is equal to 8, and the ECP slot indication is invalid for the slot carrying the SSB, and it needs to skip the slot carrying the SSB (that is, skipping slot #1 and slot #2); after skipping slot #1 and slot #2, the first to eighth slots not carrying the SSB are slot #9, slot #8, slot #7, slot #6, slot #5, slot #4, slot #3, and slot #0. Referring to
If the preset indication rule is to indicate the first to tenth slots within the preset unit length, the total quantity of sub-indications in the ECP slot indication is greater than 8, and the ECP slot indication is valid for the slot carrying the SSB, there is no need to skip the slots carrying the SSB. In all slots of the radio frame, the first to tenth slots are slot #9, slot #8, slot #7, slot #6, slot #5, slot #4, slot #3, slot #2, slot #1, and slot #0 respectively. Referring to
Since the transmission of SSB still needs to use the NCP, when the above-mentioned slot #1 and slot #2 are ECP slots, only part of the position symbols are used for the ECP. Referring to
Embodiment 2 takes the preset unit length as one radio frame as an example. In practical applications, the preset unit length can also be other lengths, such as 5 ms (5 slots when SCS=15 KHz), or 20 ms (20 slots when SCS=15 KHz), or 4 ms (4 slots when SCS=15 KHz). Embodiment 2 is an example that the ECP slot indication includes 8 sub-indications or 10 sub-indications. In practical application, the sub-indications included in the ECP slot indication can be more or less, such as 5, 6 or 7, etc. The position symbol used for the ECP in the ECP slot carrying the SSB in embodiment 2 is only an illustrative, which is not limited to in this disclosure.
If the network side device determines that the ECP slot indication is valid for a slot carrying an SSB, for the preset unit length, the first ECP slot indication that is invalid for the slot carrying the SSB, and the second ECP slot indication being valid for the slot carrying the SSB are configured, and the first ECP slot indication is sent to the UE after sending the second ECP slot indication to the UE. If it is determined that the ECP slot indication is invalid for the slot carrying the SSB, the network side device configures one ECP slot indication corresponding to the preset unit length. For the specific implementation manner of this step, reference may be made to the above-mentioned embodiment in
Based on the system broadcast message, the UE obtains the inOneGroup value in the SSB position parameter ssb-PositionsInBurst sent from the network side device, and determines whether the corresponding candidate position is used for sending the SSB based on the inOneGroup value. In this embodiment, SCS=15 KHz, and the preset unit length is one radio frame. As shown in
In the embodiments, the first slot within the preset unit length and the sub-indication corresponding to each first slot are determined in sequential order. The network side device configures, for the preset unit length, a first ECP slot indication being invalid for the slot carrying the SSB, and a second ECP slot indication being valid for the slot carrying the SSB. Here, the first ECP slot indication includes 6 sub-indications, and the second ECP slot indication Includes 4 sub-indications.
If the indication rule corresponding to the first ECP slot indication is to indicate the first to sixth slots within the preset unit length, the first ECP slot indication is invalid for the slot carrying the SSB, and the slot carrying the SSB needs to be skipped (that is, skipping slot #0, slot #1, and slot #2), after skipping slot #0, slot #1, and slot #2, the first to sixth slots not carrying the SSB are slot #3 to slot #8 respectively. Referring to
If the indication rule corresponding to the second ECP slot indication is to indicate the first to fourth slots within the preset unit length, the second ECP slot indication is valid for the slot carrying the SSB, and there is no need to skip the slot carrying the SSB. In all the slots of the radio frame, the first to fourth slots except the slots indicated by the above-mentioned first ECP slot indication (slot #3 to slot #8) are slot #0, slot #1, slot #2, and slot #9 respectively. Referring to
Since transmission of the SSB still needs to use the NCP, the above-mentioned slot #0 can only be an NCP slot, and when the above-mentioned slot #1 and slot #2 are ECP slots, only part of the position symbols are used for ECP. Referring to
Embodiment 3 takes the preset unit length as one radio frame as an example. In practical applications, the preset unit length can also be other lengths, such as 5 ms (5 slots when SCS=15 KHz), or 20 ms (20 slots when SCS=15 KHz), or 4 ms (4 slots when SCS=15 KHz). Embodiment 3 takes the ECP slot indication including 6 sub-indications and 4 sub-indications as an example. The sub-indication included in the ECP slot indication in practical applications may be more or less. The position symbol used for the ECP in the ECP slot carrying the SSB in Embodiment 3 is just an illustration, and the disclosure is not limited thereto.
Above-mentioned embodiments 1-3 support the ECP slot that includes NCP position symbol, improve transmission efficiency of the ECP slot from previous 60% to 97.5% (in 20 slots of 20 ms, only half of slot does not used for transmission of broadcast data).
One embodiment of the disclosure further provides a method for determining an ECP slot, which is applied to the above-mentioned UE, as shown in
S1601: determining whether an ECP slot indication is valid for a slot carrying an SSB according to an instruction from the network side device;
S1602: determining an ECP slot within a preset unit length sent from the network side device, according to a determination result of whether the ECP slot indication is valid for the slot carrying the SSB, and the ECP slot indication.
In one embodiment, determining whether the ECP slot indication is valid for the slot carrying the SSB according to the indication from the network side device, includes:
In one embodiment, determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In one embodiment, determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In one embodiment, the first preset quantity is a difference between a total quantity of slots within the preset unit length and a slot adjustment amount.
In one embodiment, determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In one embodiment, a sum of a total quantity of sub-indications in the first ECP slot indication and a total quantity of sub-indications in the second ECP slot indication is the total quantity of slots within the preset unit length; the sub-indication is configured to indicate whether a corresponding slot is the ECP slot.
In one embodiment, determining the ECP slot(s) within the preset unit length sent from the network side device according to the determination result of whether the ECP slot indication is valid for the slot carrying the SSB and the ECP slot indication, includes:
In one embodiment, if the ECP slot indication is invalid for the slot carrying the SSB, and the total quantity of sub-indications in the ECP slot indication for the preset unit length is greater than the total quantity of first slots within the preset unit length, the method further includes:
In one embodiment, the first slots within the preset unit length and the sub-indication corresponding to each first slot are determined in sequential order; or
In one embodiment, if the ECP slot indication is valid for the slot carrying the SSB, after determining the slot carrying the SSB as an ECP slot, the method further includes:
In one embodiment, determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, includes:
In one embodiment, determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, further includes:
In one embodiment, before determining the ECP slot(s) within the preset unit length sent from the network side device according to the determination result of whether the ECP slot indication is valid for the slot carrying the SSB and the ECP slot indication, the method further includes:
Since this method is a method corresponding to the above-mentioned UE, reference may be made to the above-mentioned embodiment for the specific implementation manner of this method, and repeated descriptions will be omitted.
In one embodiment, another method for determining an ECP slot is provided in the embodiment of the disclosure, which is applied to the above-mentioned network side device, and the method includes:
In one embodiment, the method further includes:
In one embodiment, the method further includes:
In one embodiment, sending the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In one embodiment, the first preset quantity is a difference between a total quantity of slots within the preset unit length and a slot adjustment amount.
In one embodiment, sending the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In one embodiment, a sum of a total quantity of sub-indications in the first ECP slot indication and a total quantity of sub-indications in the second ECP slot indication is the total quantity of slots within the preset unit length; where the sub-indication is configured to indicate whether a corresponding slot is the ECP slot.
In one embodiment, sending the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In one embodiment, if the ECP slot indication is invalid for the slot carrying the SSB, determining the ECP slot indication based on the sub-indication corresponding to each first slot in the preset unit length, includes:
In one embodiment, the first slots within the preset unit length and the ECP slot indications are determined in sequential order; or
In one embodiment, if the ECP slot indication is valid for the slot carrying the SSB, after determining that the slot carrying the SSB is an ECP slot, the method further includes:
In one embodiment, determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, includes:
In one embodiment, determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, further includes:
In one embodiment, before sending the ECP slot indication of the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, the method further includes:
Since this method is a method corresponding to the foregoing network side device, reference may be made to the foregoing embodiments for the specific implementation manner of this method, and repeated descriptions will not be omitted.
As shown in
The processor 1701 is responsible for managing the bus architecture and general processing. The memory 1702 can store data used by the processor 1701 when performing operations. The transceiver 1703 is configured to receive and transmit data under the control of the processor 1701.
The bus architecture may include any number of interconnected buses and bridges, various circuits including one or more processors represented by the processor 1701 and the memory represented by the memory 1702 are linked together. The bus architecture can also link together various other circuits such as peripherals, voltage regulators, and power management circuits, etc., which are well known in the art and therefore will not be further described herein. The bus interface provides the interface. The processor 1701 is responsible for managing the bus architecture and general processing, and the memory 1702 can store data used by the processor 1701 when performing operations.
The process disclosed in the embodiment of the disclosure may be applied to the processor 1701 or implemented by the processor 1701. During implementation, each step of the method for determining an ECP slot may be implemented by an integrated logic circuit of hardware in the processor 1701 or instructions in the form of software. The processor 1701 may be a general-purpose processor, a digital signal processor, an application-specific integrated circuit, a field programmable gate array or other programmable logic device, a discrete gate or transistor logic device, or a discrete hardware component, and may realize or execute the disclosed methods, steps and logical block diagrams. A general purpose processor may be a microprocessor or any conventional processor or the like. The steps of the methods disclosed in connection with the embodiments of the disclosure may be directly implemented by a hardware processor, or implemented by a combination of hardware and software modules in the processor. The software module can be in random access memory, flash memory, read-only memory, programmable read-only memory or electrically erasable programmable memory, registers and other mature storage media in this field. The storage medium is in the memory 1702, and the processor 1701 reads the information in the memory 1702, and completes the steps of the method for determining the ECP slot in combination with its hardware.
Specifically, the processor 1701 is configured to read computer instructions in the memory 1702, and perform the following operations:
In one embodiment, determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In one embodiment, determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In one embodiment, determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In one embodiment, the first preset quantity is a difference between a total quantity of slots within the preset unit length and a slot adjustment amount.
In one embodiment, determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In one embodiment, a sum of the total quantity of sub-indications in the first ECP slot indication and the total quantity of sub-indications in the second ECP slot indication is the total quantity of slots within the preset unit length; where the sub-indication is configured to indicate whether a corresponding slot is the ECP slot.
In one embodiment, determining the ECP slot(s) within the preset unit length sent from the network side device according to the determination result of whether the ECP slot indication is valid for the slot carrying the SSB and the ECP slot indication, includes:
In one embodiment, if the ECP slot indication is invalid for the slot carrying the SSB, and the total quantity of sub-indications in the ECP slot indication of the preset unit length is greater than the total quantity of first slots within the preset unit length, the operations further include:
In one embodiment, the first slot within the preset unit length and the sub-indication corresponding to each first slot are determined in sequential order; or
In one embodiment, if the ECP slot indication is valid for the slot carrying the SSB, after determining the slot carrying the SSB as an ECP slot, the operation further includes:
In one embodiment, determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, includes:
In one embodiment, determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, and the operation further includes:
In one embodiment, before determining the ECP slot(s) within the preset unit length sent from the network side device according to the determination result of whether the ECP slot indication is valid for the slot carrying the SSB and the ECP slot indication, the operation further includes:
As shown in
The processor 1801 is responsible for managing the bus architecture and general processing. The memory 1802 can store data used by the processor 1801 when performing operations. The transceiver 1803 is configured to receive and transmit data under the control of the processor 1801.
The bus architecture may include any number of interconnected buses and bridges, various circuits including one or more processors represented by the processor 1801 and the memory represented by the memory 1802 are linked together. The bus architecture can also link together various other circuits such as peripherals, voltage regulators, and power management circuits, etc., which are well known in the art and therefore will not be further described herein. The bus interface provides the interface. The processor 1801 is responsible for managing the bus architecture and general processing, and the memory 1802 can store data used by the processor 1801 when performing operations.
The processes disclosed in the embodiments of the disclosure may be applied to the processor 1801 or implemented by the processor 1801. In the implementation process, each step of the method for determining the ECP slot may be completed by an integrated logic circuit of hardware in the processor 1801 or instructions in the form of software. The processor 1801 may be a general-purpose processor, a digital signal processor, an application-specific integrated circuit, a field programmable gate array or other programmable logic device, a discrete gate or transistor logic device, or a discrete hardware component, and may realize or execute the disclosed methods, steps and logical block diagrams. A general purpose processor may be a microprocessor or any conventional processor or the like. The steps of the methods disclosed in connection with the embodiments of the disclosure may be directly implemented by a hardware processor, or implemented by a combination of hardware and software modules in the processor. The software module can be located in a mature storage medium in the field such as random access memory, flash memory, read-only memory, programmable read-only memory or electrically erasable programmable memory, register. The storage medium is located in the memory 1802, and the processor 1801 reads the information in the memory 1802, and completes the steps of the method for determining the ECP slot in combination with its hardware.
Specifically, the processor 1801 is configured to read computer instructions in the memory 1802, and perform the following operations:
In one embodiment, the operations further include:
In one embodiment, the operations further include:
In one embodiment, sending the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In one embodiment, the first preset quantity is a difference between a total quantity of slots within the preset unit length and a slot adjustment amount.
In one embodiment, sending the ECP slot indication for a preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In one embodiment, a sum of the total quantity of sub-indications in the first ECP slot indication and the total quantity of sub-indications in the second ECP slot indication is the total quantity of slots within the preset unit length; where the sub-indication is configured to indicate whether a corresponding slot is the ECP slot.
In one embodiment, sending the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In one embodiment, if the ECP slot indication is invalid for the slot carrying the SSB, determining the ECP slot indication based on the sub-indication corresponding to each first slot in the preset unit length, includes:
In one embodiment, the first slot within the preset unit length and the ECP slot indication are determined in sequential order; or
In one embodiment, if the ECP slot indication is valid for a slot carrying the SSB, after determining that the slot carrying the SSB is an ECP slot, the operation further includes:
In one embodiment, determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, includes:
In one embodiment, determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, and the operation further includes:
In one embodiment, before sending the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, the operation further includes:
As shown in
In one embodiment, the indication determination module 1901 determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In one embodiment, the indication determination module 1901 determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In one embodiment, the indication determination module 1901 determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In one embodiment, the first preset quantity is a difference between a total quantity of slots within the preset unit length and a slot adjustment amount.
In one embodiment, the indication determination module 1901 determining whether the ECP slot indication is valid for the slot carrying the SSB according to the instruction from the network side device, includes:
In one embodiment, a sum of a total quantity of sub-indications in the first ECP slot indication and a total quantity of sub-indications in the second ECP slot indication is the total quantity of slots within the preset unit length; where the sub-indication is configured to indicate whether a corresponding slot is the ECP slot.
In one embodiment, the ECP slot determination module 1902 determining the ECP slot(s) within the preset unit length sent from the network side device according to the determination result of whether the ECP slot indication is valid for the slot carrying the SSB and the ECP slot indication, includes:
for any preset unit length, if the ECP slot indication is invalid for the slot carrying the SSB, determining the first slot indicatable in the preset unit length according to a sequence of slots not carrying the SSB in the preset unit length and the preset indication rule, from the slots not carrying the SSB in the preset unit length; if the ECP slot indication is valid for the slot carrying the SSB, determining the first slot indicatable in the preset unit length from all slots in the preset unit length according to a sequence of the all slots in the preset unit length and the preset indication rule;
In one embodiment, if the ECP slot indication is invalid for the slot carrying the SSB, and the total quantity of sub-indications in the ECP slot indication of the preset unit length is greater than the total quantity of first slots in the preset unit length, the EPC slot determination module 1902 is further configured to:
In one embodiment, the first slots within the preset unit length and the sub-indication corresponding to each first slot are determined in sequential order; or
In one embodiment, if the ECP slot indication is valid for the slot carrying the SSB, after the ECP slot determining module 1902 determines the slot carrying the SSB as the ECP slot, it is further configured to:
In one embodiment, the ECP slot determining module 1902 determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, includes:
In one embodiment, the ECP slot determination module 1902 determines the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, further including:
In one embodiment, before determining the ECP slot for the preset unit length sent from the network side device according to the determination result of whether the ECP slot indication is valid for the slot carrying the SSB and the ECP slot indication, the ECP slot determination module 1902 is further configured to:
As shown in
In one embodiment, the sending module 2001 is further configured to:
In one embodiment, the sending module 2001 is further configured to:
In one embodiment, the sending module 2001 sending the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In one embodiment, the first preset quantity is a difference between a total quantity of slots within the preset unit length and a slot adjustment amount.
In one embodiment, the sending module 2001 sending the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In one embodiment, a sum of a total quantity of sub-indications in the first ECP slot indication and a total quantity of sub-indications in the second ECP slot indication is the total quantity of slots within the preset unit length; where the sub-indication is configured to indicate whether a corresponding slot is the ECP slot.
In one embodiment, the sending module 2001 sending the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, includes:
In one embodiment, if the ECP slot indication is invalid for the slot carrying the SSB, the sending module 2001 determining the ECP slot indication for the preset unit length according to the sub-indication corresponding to each first slot within the preset unit length, includes:
In one embodiment, the first slots within the preset unit length and the ECP slot indication are determined in sequential order; or
In one embodiment, if the ECP slot indication is valid for the slot carrying the SSB, after the sending module 2001 determines that the slot carrying the SSB is the ECP slot, the sending module 2001 is further configured to:
In one embodiment, the sending module 2001 determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, includes:
In one embodiment, the sending module 2001 determining the position symbol used for the NCP based on the SSB position symbol in the slot carrying the SSB, further includes:
In one embodiment, before the sending module 2001 sends the ECP slot indication for the preset unit length to the UE according to whether the ECP slot indication is valid for the slot carrying the SSB, the sending module 2001 is further configured to:
An embodiment of the disclosure provides a storage medium, which stores computer-executable instructions, and the computer-executable instructions are used to cause a computer to execute the method for determining an ECP slot as executed by the above UE.
An embodiment of the disclosure provides a storage medium, which stores computer-executable instructions, and the computer-executable instructions are used to cause a computer to execute the method for determining an ECP slot as executed by the network side device.
The above-mentioned storage medium can be any available medium or data storage device that can be accessed by a computer, including but not limited to magnetic storage (such as floppy disk, hard disk, magnetic tape, magneto-optical disk (MO), etc.), optical storage (such as CD, DVD, BD, HVD, etc.), and semiconductor memory (such as ROM, EPROM, EEPROM, non-volatile memory (NAND FLASH), solid state disk (SSD)) and the like.
Any of the solutions above, in addition to being applied to determining the ECP slot, can also be applied to determining other types of slot, and the specific implementation methods are similar, and will not be repeated here.
The disclosure is described above with reference to block diagrams and/or flowcharts illustrating methods, apparatus (systems) and/or computer program products according to embodiments of the disclosure. It will be understood that one block of the block diagrams and/or flowchart illustrations, and combinations of blocks in the block diagrams and/or flowchart illustrations, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, a special purpose computer and/or other programmable data processing apparatus to produce a machine and instructions executed via the computer processor and/or other programmable data processing apparatus create a means of implementing the functions/acts specified in the block diagrams and/or flowchart blocks.
Accordingly, the disclosure may also be implemented in hardware and/or software (including firmware, resident software, microcode, etc.). Still further, the disclosure may take the form of a computer program product on a computer-usable or computer-readable storage medium having computer-usable or computer-readable program code embodied in the medium for use by an instruction execution system or Used in conjunction with command execution systems. In the context of this disclosure, a computer-usable or computer-readable medium may be any medium that may include, store, communicate, transmit, or convey a program for use by an instruction execution system, apparatus or equipment, or used in connection with, an instruction execution system, apparatus, or equipment.
Number | Date | Country | Kind |
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202111084150.1 | Sep 2021 | CN | national |
The application is a US National Stage of International Application No. PCT/CN2022/094208, filed on May 20, 2022, which claims the priority of Chinese patent application No. 202111084150.1, filed with China National Intellectual Property Administration on Sep. 14, 2021 and entitled “ECP Slot Determination Method, User Equipment, and Network Side Device”. The entire contents of which are incorporated herein by reference.
Filing Document | Filing Date | Country | Kind |
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PCT/CN2022/094208 | 5/20/2022 | WO |