CN107465495B - Indication method and device of transmission state - Google Patents

Indication method and device of transmission state Download PDF

Info

Publication number
CN107465495B
CN107465495B CN201610391127.XA CN201610391127A CN107465495B CN 107465495 B CN107465495 B CN 107465495B CN 201610391127 A CN201610391127 A CN 201610391127A CN 107465495 B CN107465495 B CN 107465495B
Authority
CN
China
Prior art keywords
information
uplink
configurable
subframe
cpdcch
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201610391127.XA
Other languages
Chinese (zh)
Other versions
CN107465495A (en
Inventor
云翔
孙立新
丁颖哲
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Baicells Technologies Co Ltd
Original Assignee
Beijing Bai Caibang Technology Co ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Beijing Bai Caibang Technology Co ltd filed Critical Beijing Bai Caibang Technology Co ltd
Priority to CN201610391127.XA priority Critical patent/CN107465495B/en
Publication of CN107465495A publication Critical patent/CN107465495A/en
Application granted granted Critical
Publication of CN107465495B publication Critical patent/CN107465495B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L27/00Modulated-carrier systems
    • H04L27/26Systems using multi-frequency codes
    • H04L27/2601Multicarrier modulation systems
    • H04L27/2602Signal structure
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/003Arrangements for allocating sub-channels of the transmission path
    • H04L5/0048Allocation of pilot signals, i.e. of signals known to the receiver

Landscapes

  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

The invention provides a method and a device for indicating a transmission state, wherein the method for indicating the transmission state comprises the following steps: determining bit information carried in a Common Physical Downlink Control Channel (CPDCCH), and indicating the state information of uplink transmission and/or downlink transmission according to the bit information. The scheme of the invention can realize more comprehensive indication of the state information of uplink transmission and downlink transmission by using less bit information carried in the CPDCCH.

Description

Indication method and device of transmission state
Technical Field
The present invention relates to the field of mobile communications technologies, and in particular, to a method and an apparatus for indicating a transmission status.
Background
Currently, a mobile communication system generally refers to a system in which an operator provides a communication service for a user terminal (e.g., a mobile phone) by deploying a radio access network device (e.g., a base station) and a core network device (e.g., a Home Location Register, HLR), etc. Mobile communication systems have gone through the first, second, third and fourth generations. The first generation mobile communication system refers to the initial analog, only voice call cellular phone standard, mainly adopts analog technology and Frequency Division Multiple Access (FDMA) Access method; the second generation Mobile Communication System introduces digital technology, improves network capacity, improves voice quality and confidentiality, and takes Global System for Mobile Communication (GSM) and Code division multiple Access (CDMA IS-95) as representatives; the third generation mobile communication system mainly refers to CDMA2000, WCDMA and TD-SCDMA technologies, all of which use CDMA as access technology; the standards of the fourth generation mobile communication system are relatively unified internationally, and are Long Term Evolution (Long Term Evolution/Long Term Evolution-Advanced, LTE/LTE-a) formulated by the international organization for standardization 3GPP, and the downlink of the system is according to an Access mode of Orthogonal Frequency Division Multiple Access (OFDMA) and the uplink is according to Single Carrier-Frequency Division Multiple Access (SC-FDMA), and the high-speed transmission of the downlink peak rate of 1Gbps and the uplink peak rate of 500Mbps is achieved according to a flexible bandwidth and a self-adaptive modulation and coding mode.
The MulteFire is an LTE technology that newly defines an uplink transmission method on the basis of an LTE R13LAA downlink transmission method and can independently work in an unlicensed frequency band, i.e., stand-alone LTE-U. For the technology working in the unlicensed frequency band, Listen Before Talk (LBT) is introduced to ensure coexistence among multiple systems, and at the same time, the time length of each transmission opportunity TxOP is also limited, and the maximum time length is 10 subframes, that is, 10 ms.
In the licensed spectrum assisted access LAA, only Downlink transmission is performed in TxOP, and a Downlink transmission state is indicated by a Channel Control Information (DCI) format 1C in a Common Physical Downlink Control Channel (CPDCCH) scrambled by Radio Network Temporary Identity CC-RNTI (Radio Network Temporary Identity, RNTI), which is mainly the number of Orthogonal Frequency Division Multiplexing (OFDM) symbols occupied by a Downlink subframe. Specifically, the DCI includes 4bits of information, the nth subframe indicates the number of OFDM symbols of the nth subframe or the (n + 1) th subframe, and when the indicated number of OFDM symbols is less than 14 symbols or indicates the number of symbols of the current subframe, the end position of the downlink subframe may be obtained.
Because uplink transmission is introduced into the MulteFire and a more flexible transmission mode is supported, the following differences exist: (1) the ratio of uplink and downlink subframes in each TxOP may be different, so the number of uplink subframes may be different; (2) an enhanced physical uplink control channel ePUCCH and a short physical uplink control channel sPUCCH are introduced into an uplink physical channel to transmit uplink control information UCI (including acknowledgement ACK/non-acknowledgement NACK, channel state information CSI, scheduling request SR and the like) and uplink physical channel information such as a channel sounding reference signal SRS, a physical random access channel PRACH and the like which are transmitted through a physical uplink control channel PUCCH in the traditional LTE, and the content transmitted in an uplink subframe specifically needs to be notified; (3) in order to support channel access among a plurality of users in uplink transmission, the interference can be reduced through a first OFDM symbol in a punctured subframe, so that LBT of other users can be successful and the channel access can be realized, and the channel access can also be realized through transmitting SRS or reducing the interference through a last OFDM symbol in the punctured subframe; (4) under the condition of cross-TxOP scheduling, scheduling information indicated by an uplink scheduling Grant (UL Grant) may need to be triggered through a physical downlink control channel (CPDCCH) for scheduling, and the CPDCCH needs to indicate time information corresponding to the triggered UL Grant.
Therefore, according to the current indication mode of the CPDCCH, the status information of uplink transmission and downlink transmission cannot be comprehensively indicated.
Disclosure of Invention
The invention aims to provide a method and a device for indicating a transmission state, which aim to solve the problem that the existing CPDCCH indicating mode can not indicate the state information of uplink transmission and downlink transmission more comprehensively.
In order to achieve the above object, an embodiment of the present invention provides a method for indicating a transmission status, including:
determining bit information carried in a Common Physical Downlink Control Channel (CPDCCH);
and indicating the state information of uplink transmission and/or downlink transmission according to the bit information.
On the other hand, an embodiment of the present invention further provides an apparatus for indicating a transmission state, including:
the determining module is used for determining bit information carried in a Common Physical Downlink Control Channel (CPDCCH);
and the indicating module is used for indicating the state information of uplink transmission and/or downlink transmission according to the bit information.
Through the technical scheme, the invention has the beneficial effects that:
in the above technical solution, by determining the bit information carried in the CPDCCH and indicating the state information of the uplink transmission and/or the downlink transmission according to the bit information, it is possible to realize a more comprehensive indication of the state information of the uplink transmission and the downlink transmission by using less bit information carried in the CPDCCH.
Drawings
Fig. 1 is a flowchart illustrating a method for indicating a transmission status according to a first embodiment of the present invention;
fig. 2 is a flowchart illustrating a method for indicating a transmission status according to a second embodiment of the present invention;
fig. 3 is a flowchart illustrating a method for indicating a transmission status according to a third embodiment of the present invention;
fig. 4 is a flowchart illustrating a method for indicating a transmission status according to a fourth embodiment of the present invention;
fig. 5 is a schematic structural diagram of an indicating apparatus for indicating a transmission state according to a fifth embodiment of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
First embodiment
As shown in fig. 1, a first embodiment of the present invention provides a method for indicating a transmission status, which includes steps 101 to 102, which are described in detail below.
Step 101: and determining bit information carried in a Common Physical Downlink Control Channel (CPDCCH).
In the embodiment of the invention, the maximum bit number which can be carried by the CPDCCH is 15bits, and the bit information carried by the CPDCCH can comprise at least one of symbol configuration information of a subframe, the number of uplink subframes, configurable information, configurable uplink subframe state information and triggering relative time information by redesigning the CPDCCH.
And the bit number respectively occupied by the bit information can be adjusted according to the actual situation. For example, the symbol configuration information of the subframe may occupy 4bits, the number of uplink subframes and the configurable information may occupy 4bits, the configurable uplink subframe status information may occupy 4 or 6bits, and the trigger relative time information may occupy 2 or 1 bit.
It should be noted that, when the CPDCCH is designed, the bit information may be carried on one CPDCCH or may be carried on a plurality of CPDCCHs. Moreover, the plurality of CPDCCHs may be simultaneously transmitted in the same subframe and scrambled by different RNTIs, or may be transmitted in different subframes and scrambled by the same RNTIs. For example, if the nth subframe is an uplink and downlink handover subframe, the symbol configuration information and the trigger relative time information of the subframe may be notified in the CPDCCH of the nth-1 subframe, and the number of uplink subframes and the configurable information and the configurable uplink subframe status information may be notified in the CPDCCH of the nth subframe.
Step 102: and indicating the state information of uplink transmission and/or downlink transmission according to the bit information.
Specifically, the symbol configuration information of the subframe is used to indicate the OFDM symbol configuration condition of the current subframe or the next subframe, that is, the number of downlink OFDM symbols, the number of null OFDM symbols, and the number of uplink OFDM symbols, the number of uplink subframes and the configurable information are used to indicate the number of uplink subframes and a configurable set of subframes of a corresponding TxOP, the configurable uplink subframe status information is used to indicate the transmission status of different configurable uplink subframes, and the trigger relative time information is used to indicate the effective time range of the triggered UL Grant.
According to the method for indicating the transmission state, the bit information carried in the CPDCCH is determined, and the state information of uplink transmission and/or downlink transmission is indicated according to the bit information, so that the state information of uplink transmission and downlink transmission can be indicated comprehensively by using less bit information carried in the CPDCCH.
Second embodiment
As shown in fig. 2, a second embodiment of the present invention provides a method for indicating a transmission status, which includes steps 201 to 202, which are described in detail below.
Step 201: and determining the symbol configuration information of the sub-frame carried in the CPDCCH.
In LAA, 4bits information in the CPDCCH is occupied to indicate the number of downlink OFDM symbols of the current subframe or the next subframe. Because the indication of the uplink transmission state information is considered, the embodiment of the invention redefines the 4bits information to indicate the OFDM symbol configuration condition of the current subframe or the next subframe.
For example, see table 1 below, which is one of the correspondence relationships between the redefined indication information bits (bits) of the current subframe and the OFDM symbol configuration case.
Figure BDA0001009245270000051
TABLE 1
In table 1, 0000-.
Thus, according to the correspondence of table 1, the specific form of the bit in the CPDCCH can be determined.
Step 202: and indicating the OFDM symbol configuration condition of the current subframe or the next subframe according to the symbol configuration information of the subframe, wherein the OFDM symbol configuration condition comprises the number of downlink OFDM symbols, the number of null OFDM symbols and the number of uplink OFDM symbols.
The number of the uplink OFDM symbols is the number of the OFDM symbols occupied by transmitting short physical uplink control channel (sPUCCH) resources or Sounding Reference Signals (SRS).
Specifically, in the OFDM symbol configuration in table 1, the uplink OFDM symbols involved are used for transmitting sPUCCH resources, and there are generally 4 OFDM symbols. For example, if the symbol configuration information of the subframe carried in the CPDCCH is 0100, according to the correspondence shown in table 1, the OFDM symbol configuration situation corresponding to 0100 is (—, [9,1,4]), which indicates the OFDM symbol configuration situation of the next subframe, and specifically: the number of downlink OFDM symbols is 9, the number of null OFDM symbols is 1, and the number of uplink OFDM symbols is 4 (that is, the number of OFDM symbols for transmitting sPUCCH resources is 4).
In the embodiment of the invention, the number of downlink OFDM symbols can be configured by means of high-level signaling, and the indication is carried out through two reserved indication information bits, namely 1110 and 1111.
See, for example, table 2 below:
Figure BDA0001009245270000061
TABLE 2
Specifically, 1110 corresponds to (—, [ x,14-x,0]) indicating the OFDM symbol allocation of the next subframe: the number of downlink OFDM symbols is x, the number of null OFDM symbols is (14-x), and no uplink OFDM symbol is present; 1111 corresponds to ([ x,14-x,0], -) which represents the OFDM symbol configuration of the current sub-frame: the number of downlink OFDM symbols is x, the number of null OFDM symbols is (14-x), and no uplink OFDM symbol is present.
Wherein, x is obtained by high-level signaling configuration, the number of corresponding uplink OFDM symbols is 0, that is, the indicated subframe is not used for transmitting the sPUCCH resource. In practical configuration, the value of x is usually a certain number of downlink OFDM symbols in 3, 6, 9, and 10.
Referring to table 3 and table 4 again, table 3 shows a second corresponding relationship between the redefined indication information bits of the current subframe and the OFDM symbol allocation, and table 4 shows a third corresponding relationship between the redefined indication information bits of the current subframe and the OFDM symbol allocation.
Figure BDA0001009245270000071
TABLE 3
In the OFDM symbol configuration in table 3, the number of uplink OFDM symbols used for transmitting SRS is generally 1. In addition, x in the indication information bits 1110 and 1111 is also configured by high layer signaling, and the number of corresponding uplink OFDM symbols is 0, that is, the indicated subframe is not used for transmitting SRS. In practical configuration, the value of x is usually a certain number of downlink OFDM symbols in 3, 6, 9, 10, 11, and 12.
For example, if the symbol configuration information of the subframe carried in the CPDCCH is 0100, according to the correspondence relationship shown in table 3, the OFDM symbol configuration situation corresponding to 0100 is (—, [9,4,1]), which indicates the OFDM symbol configuration situation of the next subframe, and specifically: the number of downlink OFDM symbols is 9, the number of null OFDM symbols is 4, and the number of uplink OFDM symbols is 1 (i.e., the number of OFDM symbols for transmitting SRS is 1).
Figure BDA0001009245270000081
TABLE 4
In the OFDM symbol configuration in table 4, the related uplink OFDM symbols are used to transmit sPUCCH resources or SRS, that is, if the number of uplink OFDM symbols is 4, sPUCCH resources are transmitted, and if the number of uplink OFDM symbols is 1, SRS is transmitted. In addition, x in the indication information bits 1110 and 1111 is also configured by high layer signaling, and the corresponding uplink OFDM symbol number is 0, that is, the indicated subframe is not used for uplink transmission. In practical configuration, the value of x is usually a certain number of downlink OFDM symbols in 3, 6, 9, 10, 11, and 12.
In practical applications, some configurations, for example, [10,0,4], [9,1,4], etc., need to be interpreted according to the terminal capabilities. For example, the terminal reports the number of OFDM symbols required for uplink and downlink switching to the base station, when the number of OFDM symbols required for uplink and downlink switching is less than or equal to the number of null OFDM symbols, the base station considers that uplink resources are transmitted, and when the number of OFDM symbols required for uplink and downlink switching is greater than the number of null OFDM symbols, the base station considers that uplink resources are not transmitted.
When the first downlink subframe in TxOP is a half frame and the terminal obtains a start symbol to be sent by blind solution as 7, if the terminal receives the CPDCCH at the same time, only the value of 0000-0111 is configurable, and the terminal considers that the transmission state corresponding to 0111 is: the start position is the symbol 7 and the end position is the symbol 13.
The method for indicating the transmission state in the embodiment of the invention can indicate the state of downlink transmission and can also indicate whether to send the sPUCCH resource or the SRS resource by determining the symbol configuration information of the subframe carried in the CPDCCH and indicating the OFDM symbol configuration condition of the current subframe or the next subframe according to the symbol configuration information of the subframe.
Third embodiment
As shown in fig. 3, a third embodiment of the present invention provides a method for indicating a transmission status, which includes steps 301 to 303, which are described in detail below.
Step 301: and determining the number of the uplink subframes and the configurable information carried in the CPDCCH according to at least one configurable uplink subframe set which is configured by the high-level signaling and corresponds to different uplink subframe numbers.
Specifically, when the number of uplink subframes is large, the DCI capacity in the CPDCCH is limited, and various transmission states of all uplink subframes cannot be indicated, so that the corresponding configurable uplink subframe set can be determined by at least one configurable uplink subframe set, which is configured by high-level signaling such as radio resource control RRC and corresponds to different uplink subframe numbers, and the number of uplink subframes and the configurable information carried in the CPDCCH can be determined.
The number of configurable uplink subframe sets configured by the higher layer signaling and corresponding to different uplink subframe numbers may be 1. For example, when the number of uplink subframes is 9, the configurable uplink subframe set configured by the higher layer signaling may be { subframe 1,4,7 }; or when the number of uplink subframes is 8, the configurable uplink subframe set of the higher layer signaling configuration may be { subframe 4, 5, 7 }.
Further, the configurable uplink subframe set corresponding to different uplink subframe numbers configured by the higher layer signaling may also be multiple, for example, two. For example, when the number of uplink subframes is 9, the configurable uplink subframe set configured by the higher layer signaling may include a configurable uplink subframe set 1 and a configurable uplink subframe set 2, where the configurable uplink subframe set 1 is { subframe 1,4,7}, and the configurable uplink subframe set 2 is { subframe 2, 5, 8 }.
In the embodiment of the present invention, the number of uplink subframes and the configurable information are used to indicate the number of uplink subframes and a configurable uplink subframe set. Also, referring to table 5 below, for example, two configurable uplink subframe sets are used, the number of uplink subframes and the configurable information may be embodied by 4bits information.
Figure BDA0001009245270000101
TABLE 5
In table 5, the indicator information bits 1001 jointly indicate that the number of uplink subframes is 9 and the configurable uplink subframe set is 1, and the indicator information bits 1111 jointly indicate that the number of uplink subframes is 9 and the configurable uplink subframe set is 2.
Step 302: and determining the configurable uplink subframe state information carried in the CPDCCH according to a transmission state set configured by a high-level signaling.
In the embodiment of the present invention, the transmission states of the configurable uplink subframe may include, for example, 8 states, as shown in table 6 below:
Figure BDA0001009245270000102
TABLE 6
The transmission state of the configurable uplink subframe shown in table 6 is mainly as follows: whether the transmission contains ePUCCH, whether the first OFDM symbol is punctured, and whether the last OFDM symbol is punctured.
In the embodiment of the present invention, the transmission state set configured by the high layer signaling is specifically a configurable state of each configurable uplink subframe. For example, the configurable state of the first configurable uplink subframe is { state 1, state 2, state 3, state 4}, the configurable state of the second configurable uplink subframe is { state 1, state 3, state 5, state 7}, and the configurable state of the third configurable uplink subframe is { state 2, state 4, state 6, state 8 }. When the number of uplink subframes in the CPDCCH and the number of uplink subframes indicated by the configurable uplink subframe set field are 9, and the configurable uplink subframe set is { subframe 1,4,7}, the corresponding transmission state set of the higher layer signaling configuration may be: the configurable state of the first configurable uplink subframe 1 is { state 1, state 2, state 3, state 4}, the configurable state of the second configurable uplink subframe 4 is { state 1, state 3, state 5, state 7}, and the configurable state of the third configurable uplink subframe 7 is { state 2, state 4, state 6, state 8 }. That is, the higher layer signaling needs to configure the transmission state set of the configurable uplink subframe corresponding to the configurable uplink subframe set.
If the higher layer signaling configures multiple configurable uplink subframe sets, the higher layer signaling needs to configure the configurable state of the configurable uplink subframe corresponding to each configurable uplink subframe set to determine the transmission state of the configurable uplink subframe.
It should be noted that, when determining the transmission state of the configurable uplink subframe, if the nth subframe after receiving the CPDCCH is configured by the higher layer for epdcch transmission, the configurable state of other configurable uplink subframes except the nth subframe may be determined without using a transmission state set configured by the higher layer signaling, but the configurable states of the other configurable uplink subframes may be directly selected as { state 1, state 2, state 3, and state 4}, so that the requirement for determining the transmission state of the configurable uplink subframe may also be met.
Step 303: and indicating the number of uplink subframes of the current TxOP, a configurable uplink subframe set corresponding to the number of uplink subframes and the transmission state of the configurable uplink subframes corresponding to the configurable uplink subframe set according to the number of uplink subframes, the configurable information and the configurable uplink subframe state information.
Wherein the configurable uplink subframe status information is used for directly indicating the transmission status of the configurable uplink subframe. Thus, after determining the number of uplink subframes, the configurable information, and the configurable uplink subframe status information, the information may be used to indicate the number of uplink subframes of the current TxOP, the configurable uplink subframe set corresponding to the number of uplink subframes, and the transmission status of the configurable uplink subframes corresponding to the configurable uplink subframe set.
According to the method for indicating the transmission state, the number of uplink subframes, the configurable information and the configurable uplink subframe state information which are carried in the CPDCCH can be used for indicating the number of the uplink subframes of the current TxOP, the configurable uplink subframe set corresponding to the number of the uplink subframes and the transmission state of the configurable uplink subframes corresponding to the configurable uplink subframe set, so that the indication of the uplink transmission state information is realized.
Fourth embodiment
As shown in fig. 4, a fourth embodiment of the present invention provides a method for indicating a transmission status, which includes steps 401 to 402, which are described in detail below.
Step 401: determining trigger relative time information carried in the CPDCCH.
Specifically, under the condition of cross-TxOP scheduling, scheduling information indicated by an uplink scheduling Grant UL Grant may be scheduled only by being triggered by a CPDCCH, and the CPDCCH needs to indicate time information corresponding to the triggered UL Grant. Therefore, in the embodiment of the present invention, 2bits information may be introduced into the DCI of the CPDCCH to indicate trigger relative time information, where the trigger relative time information is used to indicate time difference information between the CPDCCH and the UL Grant.
For example, the specific form of the trigger relative time information can be seen in table 7 below:
bit position 00 01 10 11
Time difference information 2-10 subframes 11-20 subframes 21-30 subframes 31-40 subframes
TABLE 7
In table 7, 00 indicates that the cpch is used to trigger the UL Grant of 2-10 subframes before the current time (i.e., the time when the cpch is transmitted), and the subframes may be consecutive subframes or non-consecutive downlink subframes; 01 denotes that the CPDCCH is used to trigger the UL Grant of 11-20 subframes before the current time; and so on.
In the embodiment of the present invention, when determining the trigger relative time information, the trigger relative time information may be determined according to an interval granularity configured by a higher layer signaling, a maximum time range, or a plurality of time difference information.
The manner in which the trigger relative time information is determined based on higher layer signaling is described below by tables 8-10.
(1) Referring to table 8, the trigger relative time information carried in the CPDCCH is determined according to the interval granularity X configured by the higher layer signaling.
Bit position 00 01 10 11
Time difference information 0-X subframe X +1-2X subframes 2X +1-3X subframes 3X +1-4X subframes
TABLE 8
Wherein, the X value is configured by the higher layer signaling, when the load in the system is higher, a larger X value can be configured, when the load in the system is lower, a smaller X value can be configured, so as to indicate the suitable time difference information under different conditions.
(2) Referring to table 9, the trigger relative time information carried in the CPDCCH is determined according to the maximum time range Y configured by the higher layer signaling.
Figure BDA0001009245270000131
TABLE 9
The Y value is obtained by high-level signaling configuration, when the load in the system is higher, a larger Y value can be configured, and when the load in the system is lower, a smaller Y value can be configured, so that under different conditions, the appropriate time difference information can be indicated.
(3) Referring to table 10, the trigger relative time information carried in the CPDCCH is determined according to a plurality of time difference information Z1, Z2, Z3 and Z4 configured by higher layer signaling.
Bit position 00 01 10 11
Time difference information 0-Z1 subframe Z1+1-Z2 subframes Z2+1-Z3 subframes Z3+1-Z4 subframes
Watch 10
Step 402: and indicating the time difference information of the CPDCCH and the uplink scheduling Grant (UL Grant) according to the trigger relative time information.
In the embodiment of the present invention, the time difference information between the CPDCCH and the UL Grant may be uniformly distributed, non-uniformly distributed, or recycled, and the like, which is not limited in the present invention.
For example, referring to table 7, the time difference information is uniformly distributed. Referring again to tables 11 and 12 below, the time difference information is non-uniformly distributed and recycled, respectively.
Bit position 00 01 10 11
Time difference information 2-5 subframes 6-10 subframes 11-20 subframes 21-40 subframes
TABLE 11
Here, the time difference information shown in table 11 is non-uniformly distributed.
Bit position 00 01 10 11
Time difference information 2-10 subframes 6-10 subframes 11-40 subframes 21-40 subframes
TABLE 12
The time difference information shown in table 12 is used repeatedly.
It should be noted that, after the CPDCCH triggers the UL Grant, if the indication information in the CPDCCH is not matched with the indication information in the UL Grant, the indication should be performed based on the indication information in the CPDCCH, so as to prevent collision from occurring and causing system performance degradation.
For example, if the UL Grant indicates to transmit the SRS, but the last OFDM symbol in the CPDCCH indicates not to be punctured, that is, the SRS cannot be transmitted (the last OFDM symbol in a subframe is usually punctured to transmit the SRS), in this case, if the terminal still transmits the SRS according to the UL Grant, the terminal may collide with uplink data transmitted by other terminals, resulting in reduced system performance. That is, in this case, the indication is performed based on the indication information in the CPDCCH.
The method for indicating the transmission state of the embodiment of the invention can indicate the effective time range of the triggered UL Grant through the trigger relative time information carried in the CPDCCH.
Fifth embodiment
As shown in fig. 5, a fifth embodiment of the present invention provides an indicating apparatus for a transmission state, including:
a determining module 51, configured to determine bit information carried in a common physical downlink control channel CPDCCH;
and an indicating module 52, configured to indicate the status information of uplink transmission and/or downlink transmission according to the bit information.
Wherein the bit information includes at least one of symbol configuration information of a subframe, a number of uplink subframes and configurable information, configurable uplink subframe status information, and trigger relative time information.
Further, when the bit information includes symbol configuration information of a subframe, the indicating module 52 includes:
a first indicating unit, configured to indicate an OFDM symbol configuration condition of a current subframe or a next subframe according to symbol configuration information of the subframe, where the OFDM symbol configuration condition includes a downlink OFDM symbol number, a null OFDM symbol number, and an uplink OFDM symbol number;
the number of the uplink OFDM symbols is the number of the OFDM symbols occupied by transmitting short physical uplink control channel (sPUCCH) resources or Sounding Reference Signals (SRS).
Specifically, the number of downlink OFDM symbols may be obtained by high-level signaling configuration, and the number of corresponding uplink OFDM symbols is 0.
Further, when the bit information includes the number of uplink subframes and the configurable information, the determining module includes:
a first determining unit, configured to determine, according to at least one configurable uplink subframe set corresponding to different uplink subframe numbers configured by a high-level signaling, the number of uplink subframes and configurable information carried in the CPDCCH.
Further, when the bit information includes configurable uplink subframe status information, the determining module includes:
a second determining unit, configured to determine, according to a transmission state set configured by a high-level signaling, configurable uplink subframe state information carried in the CPDCCH.
Wherein the configurable uplink subframe status information is used for directly indicating the transmission status of the configurable uplink subframe.
Further, when the bit information includes trigger relative time information, the determining module includes:
a third determining unit, configured to determine, according to interval granularity configured by a high-level signaling, a maximum time range, or multiple pieces of time difference information, trigger relative time information carried in the CPDCCH.
Further, when the bit information includes trigger relative time information, the indicating module includes:
and a second indicating unit, configured to indicate time difference information between the CPDCCH and an uplink scheduling Grant UL Grant according to the trigger relative time information.
Wherein the time difference information is uniformly distributed, non-uniformly distributed or recycled.
Further, when the indication information in the CPDCCH and the indication information in the UL Grant are not matched, indicating is performed based on the indication information in the CPDCCH.
The embodiment of the device of the invention is a device corresponding to the embodiment of the method, and all implementation means in the embodiment of the method are applicable to the embodiment of the device, and the same technical effects can be achieved.
While the principles of the invention have been described in connection with specific embodiments thereof, it should be noted that it will be understood by those skilled in the art that all or any of the steps or elements of the method and apparatus of the invention may be implemented in any computing device (including processors, storage media, etc.) or network of computing devices, in hardware, firmware, software, or any combination thereof, which will be within the skill of those in the art after reading the description of the invention and applying their basic programming skills.
Thus, the objects of the invention may also be achieved by running a program or a set of programs on any computing device. The computing device may be a general purpose device as is well known. The object of the invention is thus also achieved solely by providing a program product comprising program code for implementing the method or the apparatus. That is, such a program product also constitutes the present invention, and a storage medium storing such a program product also constitutes the present invention. It is to be understood that the storage medium may be any known storage medium or any storage medium developed in the future. It is further noted that in the apparatus and method of the present invention, it is apparent that each component or step can be decomposed and/or recombined. These decompositions and/or recombinations are to be regarded as equivalents of the present invention. Also, the steps of executing the series of processes described above may naturally be executed chronologically in the order described, but need not necessarily be executed chronologically. Some steps may be performed in parallel 10 or independently of each other.
A1, a method for indicating a transmission state, comprising:
determining bit information carried in a Common Physical Downlink Control Channel (CPDCCH);
and indicating the state information of uplink transmission and/or downlink transmission according to the bit information.
A2, according to the indication method of A1, the bit information includes at least one of symbol configuration information of subframes, number of uplink subframes and configurable information, configurable uplink subframe status information and trigger relative time information.
A3, according to the indication method of A2, when the bit information includes symbol configuration information of a subframe, the step of indicating the status information of uplink transmission and/or downlink transmission according to the bit information includes:
indicating the OFDM symbol configuration condition of the current subframe or the next subframe according to the symbol configuration information of the subframe, wherein the OFDM symbol configuration condition comprises the number of downlink OFDM symbols, the number of null OFDM symbols and the number of uplink OFDM symbols;
the number of the uplink OFDM symbols is the number of the OFDM symbols occupied by transmitting short physical uplink control channel (sPUCCH) resources or Sounding Reference Signals (SRS).
A4, according to the indication method of A3, the number of downlink OFDM symbols is obtained by high-level signaling configuration, and the number of corresponding uplink OFDM symbols is 0.
A5, according to the indication method of a2, when the bit information includes the number of uplink subframes and the configurable information, the step of determining the bit information carried in the common physical downlink control channel CPDCCH includes:
and determining the number of uplink subframes and configurable information carried in the CPDCCH according to at least one configurable uplink subframe set which is configured by a high-level signaling and corresponds to different uplink subframe numbers.
A6, according to the indication method of a5, when the bit information includes configurable uplink subframe status information, the step of determining the bit information carried in the common physical downlink control channel CPDCCH includes:
and determining the configurable uplink subframe state information carried in the CPDCCH according to a transmission state set configured by a high-level signaling.
A7, according to the indication method of A6, the configurable uplink subframe status information is used for directly indicating the transmission status of the configurable uplink subframe.
A8, according to the indication method of a2, when the bit information includes trigger relative time information, the step of determining bit information carried in a common physical downlink control channel (cpccch) includes:
and determining the trigger relative time information carried in the CPDCCH according to the interval granularity, the maximum time range or a plurality of time difference information configured by the high-level signaling.
A9, according to the indicating method of A2 or A8, when the bit information includes trigger relative time information, the step of indicating the status information of uplink transmission and/or downlink transmission according to the bit information includes:
and indicating the time difference information of the CPDCCH and the uplink scheduling Grant (UL Grant) according to the trigger relative time information.
A10, according to the indication method of A9, the time difference information is uniformly distributed, non-uniformly distributed or recycled.
A11, according to the indication method of A9, when the indication information in the CPDCCH does not match the indication information in the UL Grant, indicating according to the indication information in the CPDCCH.
A12, an indicating device for transmission status, comprising:
the determining module is used for determining bit information carried in a Common Physical Downlink Control Channel (CPDCCH);
and the indicating module is used for indicating the state information of uplink transmission and/or downlink transmission according to the bit information.
A13, the indication device of A12, wherein the bit information includes at least one of symbol configuration information, number of uplink subframes and configurable information, configurable uplink subframe status information and trigger relative time information of subframes.
A14, the indication apparatus of A13, wherein when the bit information includes symbol configuration information of a subframe, the indication module comprises:
a first indicating unit, configured to indicate an OFDM symbol configuration condition of a current subframe or a next subframe according to symbol configuration information of the subframe, where the OFDM symbol configuration condition includes a downlink OFDM symbol number, a null OFDM symbol number, and an uplink OFDM symbol number;
the number of the uplink OFDM symbols is the number of the OFDM symbols occupied by transmitting short physical uplink control channel (sPUCCH) resources or Sounding Reference Signals (SRS).
A15, according to the indicating device of A14, the number of downlink OFDM symbols is configured by high-level signaling, and the number of corresponding uplink OFDM symbols is 0.
A16, according to the indicating apparatus of A13, when the bit information includes the number of uplink subframes and configurable information, the determining module includes:
a first determining unit, configured to determine, according to at least one configurable uplink subframe set corresponding to different uplink subframe numbers configured by a high-level signaling, the number of uplink subframes and configurable information carried in the CPDCCH.
A17, according to the indicating apparatus of A16, when the bit information includes configurable uplink subframe status information, the determining module includes:
a second determining unit, configured to determine, according to a transmission state set configured by a high-level signaling, configurable uplink subframe state information carried in the CPDCCH.
A18, according to the indication device of A17, the configurable uplink subframe status information is used for directly indicating the transmission status of the configurable uplink subframe.
A19, the indication apparatus of A13, wherein when the bit information includes trigger relative time information, the determining means comprises:
a third determining unit, configured to determine, according to interval granularity configured by a high-level signaling, a maximum time range, or multiple pieces of time difference information, trigger relative time information carried in the CPDCCH.
A20, the indication device according to A13 or A19, wherein when the bit information includes trigger relative time information, the indication module includes:
and a second indicating unit, configured to indicate time difference information between the CPDCCH and an uplink scheduling Grant UL Grant according to the trigger relative time information.
A21, the indicating device of A20, wherein the time difference information is uniformly distributed, non-uniformly distributed or recycled.
A22, the indicating device of A20, wherein when the indication information in the CPDCCH does not match the indication information in the UL Grant, indicating is performed according to the indication information in the CPDCCH.

Claims (16)

1. A method for indicating a transmission status, comprising:
determining bit information carried in a Common Physical Downlink Control Channel (CPDCCH);
indicating the state information of uplink transmission and/or downlink transmission according to the bit information;
wherein the bit information comprises at least one of symbol configuration information of subframes, the number of uplink subframes and configurable information, configurable uplink subframe state information and trigger relative time information;
the symbol configuration information of the subframe is used for indicating the Orthogonal Frequency Division Multiplexing (OFDM) symbol configuration condition of the current subframe or the next subframe; the number of uplink subframes and configurable information are used to indicate the number of uplink subframes and a configurable set of subframes for a respective transmission opportunity TxOP; the configurable uplink subframe state information is used for indicating the transmission state of a configurable uplink subframe; the trigger relative time information is used for indicating the time difference information of the CPDCCH and the uplink scheduling Grant (UL Grant).
2. The method according to claim 1, wherein when the bit information includes symbol configuration information of a subframe, the step of indicating status information of uplink transmission and/or downlink transmission according to the bit information comprises:
indicating the OFDM symbol configuration condition of the current subframe or the next subframe according to the symbol configuration information of the subframe, wherein the OFDM symbol configuration condition comprises the number of downlink OFDM symbols, the number of null OFDM symbols and the number of uplink OFDM symbols;
the number of the uplink OFDM symbols is the number of the OFDM symbols occupied by transmitting short physical uplink control channel (sPUCCH) resources or Sounding Reference Signals (SRS).
3. The indication method according to claim 2, wherein the number of downlink OFDM symbols is configured by a higher layer signaling, and the number of corresponding uplink OFDM symbols is 0.
4. The indication method according to claim 1, wherein when the bit information includes the number of uplink subframes and configurable information, the step of determining the bit information carried in the Common Physical Downlink Control Channel (CPDCCH) comprises:
and determining the number of uplink subframes and configurable information carried in the CPDCCH according to at least one configurable uplink subframe set which is configured by a high-level signaling and corresponds to different uplink subframe numbers.
5. The indication method according to claim 4, wherein when the bit information includes configurable uplink subframe status information, the step of determining bit information carried in a Common Physical Downlink Control Channel (CPDCCH) comprises:
and determining the configurable uplink subframe state information carried in the CPDCCH according to a transmission state set configured by a high-level signaling.
6. The indication method according to claim 1, wherein when the bit information includes trigger relative time information, the step of determining bit information carried in a Common Physical Downlink Control Channel (CPDCCH) comprises:
and determining the trigger relative time information carried in the CPDCCH according to the interval granularity, the maximum time range or a plurality of time difference information configured by the high-level signaling.
7. The indication method according to claim 1, wherein the time difference information is uniformly distributed, non-uniformly distributed, or recycled.
8. The indication method according to claim 1, wherein when the indication information in the CPDCCH and the indication information in the ULGrant do not match, indicating is performed according to the indication information in the CPDCCH.
9. An apparatus for indicating a transmission status, comprising:
the determining module is used for determining bit information carried in a Common Physical Downlink Control Channel (CPDCCH);
the indicating module is used for indicating the state information of uplink transmission and/or downlink transmission according to the bit information;
wherein the bit information comprises at least one of symbol configuration information of subframes, the number of uplink subframes and configurable information, configurable uplink subframe state information and trigger relative time information;
the symbol configuration information of the subframe is used for indicating the Orthogonal Frequency Division Multiplexing (OFDM) symbol configuration condition of the current subframe or the next subframe; the number of uplink subframes and configurable information are used to indicate the number of uplink subframes and a configurable set of subframes for the respective TxOP; the configurable uplink subframe state information is used for indicating the transmission state of a configurable uplink subframe; the trigger relative time information is used to indicate time difference information of the CPDCCH and the UL Grant.
10. The apparatus according to claim 9, wherein when the bit information comprises symbol configuration information of a subframe, the indication module comprises:
a first indicating unit, configured to indicate an OFDM symbol configuration condition of a current subframe or a next subframe according to symbol configuration information of the subframe, where the OFDM symbol configuration condition includes a downlink OFDM symbol number, a null OFDM symbol number, and an uplink OFDM symbol number;
the number of the uplink OFDM symbols is the number of the OFDM symbols occupied by transmitting short physical uplink control channel (sPUCCH) resources or Sounding Reference Signals (SRS).
11. The apparatus according to claim 10, wherein the number of downlink OFDM symbols is configured by higher layer signaling, and the number of corresponding uplink OFDM symbols is 0.
12. The apparatus of claim 9, wherein when the bit information comprises the number of uplink subframes and configurable information, the determining module comprises:
a first determining unit, configured to determine, according to at least one configurable uplink subframe set corresponding to different uplink subframe numbers configured by a high-level signaling, the number of uplink subframes and configurable information carried in the CPDCCH.
13. The apparatus of claim 12, wherein when the bit information comprises configurable uplink subframe status information, the determining module comprises:
a second determining unit, configured to determine, according to a transmission state set configured by a high-level signaling, configurable uplink subframe state information carried in the CPDCCH.
14. The indication apparatus according to claim 9, wherein when the bit information includes trigger relative time information, the determining module comprises:
a third determining unit, configured to determine, according to interval granularity configured by a high-level signaling, a maximum time range, or multiple pieces of time difference information, trigger relative time information carried in the CPDCCH.
15. The indication device of claim 9, wherein the time difference information is uniformly distributed, non-uniformly distributed, or recycled.
16. The apparatus of claim 9, wherein when the indication information in the CPDCCH and the indication information in the UL Grant do not match, indicating is performed according to the indication information in the CPDCCH.
CN201610391127.XA 2016-06-03 2016-06-03 Indication method and device of transmission state Active CN107465495B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201610391127.XA CN107465495B (en) 2016-06-03 2016-06-03 Indication method and device of transmission state

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201610391127.XA CN107465495B (en) 2016-06-03 2016-06-03 Indication method and device of transmission state

Publications (2)

Publication Number Publication Date
CN107465495A CN107465495A (en) 2017-12-12
CN107465495B true CN107465495B (en) 2020-08-28

Family

ID=60544970

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201610391127.XA Active CN107465495B (en) 2016-06-03 2016-06-03 Indication method and device of transmission state

Country Status (1)

Country Link
CN (1) CN107465495B (en)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102668672A (en) * 2009-10-12 2012-09-12 株式会社泛泰 Apparatus and method for transmitting and receiving control information in wireless communication system
CN102714586A (en) * 2009-10-30 2012-10-03 捷讯研究有限公司 Downlink control information set switching when using carrier aggregation
WO2015061947A1 (en) * 2013-10-28 2015-05-07 Alcatel Lucent Method and apparatus for obtaining dci of the interfering cell based on common pdcch/epdcch sets

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102056316B (en) * 2009-11-02 2013-06-26 电信科学技术研究院 Channel resource allocation method, base station and relay node
WO2013165216A1 (en) * 2012-05-03 2013-11-07 Samsung Electronics Co., Ltd. Reference signals and common search space for enhanced control channels
CN103428713B (en) * 2012-05-15 2016-11-02 上海贝尔股份有限公司 The detection method of physical downlink control channel and device
WO2015013862A1 (en) * 2013-07-29 2015-02-05 Qualcomm Incorporated Dynamic indication of time division (tdd) duplex uplink/downlink subframe configurations

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102668672A (en) * 2009-10-12 2012-09-12 株式会社泛泰 Apparatus and method for transmitting and receiving control information in wireless communication system
CN102714586A (en) * 2009-10-30 2012-10-03 捷讯研究有限公司 Downlink control information set switching when using carrier aggregation
WO2015061947A1 (en) * 2013-10-28 2015-05-07 Alcatel Lucent Method and apparatus for obtaining dci of the interfering cell based on common pdcch/epdcch sets

Also Published As

Publication number Publication date
CN107465495A (en) 2017-12-12

Similar Documents

Publication Publication Date Title
EP3776970B1 (en) Uplink bandwidth part switching on new radio unlicensed
CN108271430B (en) Method and terminal for transmitting uplink signal in unlicensed frequency band
EP3823409B1 (en) Scheduling multiple subframes in unlicensed spectrum
EP3453220B1 (en) Lbt parameters for uplink in unlicensed spectrum
CN108352975B (en) Communication method in a network supporting licensed and unlicensed bands
CN110447287B (en) Method and device for operating a wireless communication device or a radio access node
US11388715B2 (en) Information transmission method and apparatus
US11882595B2 (en) Method, system and apparatus for new radio bandwidth part operations
US11589260B1 (en) Method and apparatus for autonomous transmission
EP3595378B1 (en) Channel access method and device
EP3413671B1 (en) Method for scheduling uplink transmission in communication network
CN109890076B (en) Data transmission method, device and storage medium on unlicensed spectrum
EP3439405B1 (en) Method, device, and terminal for multi-subframe scheduling
CN111865537B (en) Communication method and communication device
EP3267613A1 (en) Data transmission method, feedback information transmission method, and related device
CN111448772A (en) Feedback information transmission method and device and communication equipment
EP3504820A1 (en) Method and apparatus for sending feedback using two-stage uplink scheduling
US11991697B2 (en) Method and apparatus for subband based channel access on unlicensed spectrum
CN107465495B (en) Indication method and device of transmission state
US12082262B2 (en) Mechanism for providing multiple transmission opportunities
EP4304117A1 (en) Method, apparatus and device for feeding back codebook, and storage medium
US20220337371A1 (en) Method for srs bundling in nru
CN117413483A (en) Transmission of feedback information

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination
GR01 Patent grant
GR01 Patent grant
CP03 Change of name, title or address

Address after: 100094 9 / F, 10 / F, building 1, zone 1, 81 Beiqing Road, Haidian District, Beijing

Patentee after: Beijing baicaibang Technology Co.,Ltd.

Address before: 100085 Beijing Haidian District city information industry base development road 1, 3 tier 3001

Patentee before: Beijing Bai Caibang Technology Co.,Ltd.

CP03 Change of name, title or address