CN106576023A - Method, device, and system for information transmission - Google Patents

Method, device, and system for information transmission Download PDF

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Publication number
CN106576023A
CN106576023A CN201580044443.3A CN201580044443A CN106576023A CN 106576023 A CN106576023 A CN 106576023A CN 201580044443 A CN201580044443 A CN 201580044443A CN 106576023 A CN106576023 A CN 106576023A
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Prior art keywords
resource
pucch
equipment
parameter
parameter set
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CN106576023B (en
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余政
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Chongqing Kailede Technology Co ltd
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Huawei Technologies Co Ltd
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L1/12Arrangements for detecting or preventing errors in the information received by using return channel
    • H04L1/16Arrangements for detecting or preventing errors in the information received by using return channel in which the return channel carries supervisory signals, e.g. repetition request signals

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

Abstract

The present invention relates to the field of communications and is capable of solving the problem in the prior art of a conflict found in resources occupied by an ACK/NACK feedback of a user equipment to a downlink subframe. Disclosed are a method, device, and system for information transmission. A specific solution is such that: a first device determines in an n-th time resource a first PUCCH resource and a second PUCCH resource, where the width of the frequency resource between the first PUCCH resource and the second PUCCH resource is less than or equal to the working bandwidth of the first device, the first device utilizes the first PUCCH resource to transmit control information corresponding to an m1-th downlink subframe to a base station, and utilizes the second PUCCH resource to transmit control information corresponding to an m2-th downlink subframe to the base station. The present invention is for use in information transmission.

Description

A kind of information transferring method, equipment and system Technical field
The present invention relates to the communications field, more particularly to a kind of information transferring method, equipment and system.
Background technology
In a wireless communication system, with LTE (Long Term Evolution, Long Term Evolution) exemplified by system, user equipment passes through PUCCH (Physical Uplink Control Channel, Physical Uplink Control Channel) and sends ascending control information.For the user equipment of low complex degree, its bandwidth sent and received signal that can be supported is limited.For example, the bandwidth of user equipment is 1.4MHz or 6 PRB (physical resource block, Physical Resource Block) corresponding band width.And user equipment by PUCCH send ascending control information when, the band width of PUCCH mappings can be the band width for the PRB that whole upstream bandwidth is included, when the bandwidth that user equipment is supported is less than the upstream bandwidth that PUCCH maps, user equipment can not just send ascending control information.
To solve the above problems, in the prior art, frequency hopping is carried out across the sub-frames, as shown in figure 1, user does not send ascending control information in several time slots, and the tuning of frequency location is carried out in this several time slot.In Fig. 1 by taking two time slots as an example, ascending control information is sent in time slot 1, time slot 2, time slot 5 and time slot 6, between time slot 2 and time slot 5, and the tuning of frequency location is carried out using the resource of time slot 3 and time slot 4.
But, as shown in Fig. 2 when sending ascending control information by frequency hopping, to descending sub frame n ACK (Acknowledge, affirmative acknowledgement) or NACK (Not Acknowledge, negative response) feedbacks with descending sub frame n+2 ACK/NACK is fed back and may collided.In Fig. 2, ACK/NACK feedbacks to descending sub frame n need to take subframe n+4 and subframe n+6, and the ACK/NACK feedbacks for descending sub frame n+2 need to take subframe n+6 and n+8, this allows for subframe n+6 resource while the ACK/NACK for descending sub frame n and descending sub frame n+2 feeds back.Now, if the frequency range in subframe n+6 between the resource of subframe n ACK/NACK feedbacks and subframe n+2 ACK/NACK feedbacks is more than the bandwidth (such as 6 PRB) of user equipment, user equipment can not send ascending control information.
The content of the invention
Embodiments of the invention provide a kind of information transferring method, equipment and system, can solve the problem that User equipment feeds back the problem of shared resource conflicts to the ACK/NACK of descending sub frame in the prior art.
To reach above-mentioned purpose, embodiments of the invention are adopted the following technical scheme that:
In a first aspect, the embodiment of the present invention provides a kind of first equipment, including:
Rm-cell, for determining the first Physical Uplink Control Channel PUCCH resource and the second PUCCH resource in n-th of time resource, wherein, frequency resources width between first PUCCH resource and second PUCCH resource is less than or equal to the bandwidth of operation of first equipment, and first PUCCH resource is used to carry m1The corresponding ascending control information of individual descending sub frame, second PUCCH resource is used to carry m2The corresponding ascending control information of individual descending sub frame;
Transmitting element, the m is sent for first PUCCH resource using rm-cell determination to second equipment1The corresponding control information of individual descending sub frame, second PUCCH resource determined using the rm-cell sends the m to second equipment2The corresponding control information of individual descending sub frame.
With reference in a first aspect, in the first possible implementation of first aspect,
The rm-cell includes parameter set subelement, for determining first PUCCH resource in the resource that n-th of time resource is included according to the first parameter, first equipment determines second PUCCH resource according to the second parameter in the resource that n-th of time resource is included, first parameter belongs to the first parameter set, and second parameter belongs to the second parameter set.
With reference to the first possible implementation of first aspect, in second of possible implementation of first aspect,
The parameter in parameter and second parameter set in first parameter set is PUCCH response parameters;
Or, the parameter in first parameter set is that the parameter in resource block index or Physical Resource Block index, second parameter set is resource block index or Physical Resource Block index;
Or, the parameter in first parameter set is PUCCH indexes, and the parameter in second parameter set is PUCCH indexes.
Second with reference to the first possible implementation or first aspect of first aspect can The implementation of energy, in the third possible implementation of first aspect,
The value of i-th of parameter is determined according to i-th of parameter value in second parameter set and offset parameter values in first parameter set;
Or, the value of i-th of parameter is determined according to i-th of parameter value in first parameter set and offset parameter values in second parameter set.
With reference to first aspect the first possible implementation into the third possible implementation of first aspect any implementation, in the 4th kind of possible implementation of first aspect,
The parameter set subelement, it is additionally operable to determine the corresponding descending sub frame of first parameter set and the corresponding descending sub frame of second parameter set according to the first preset rules, PUCCH resource corresponding to the corresponding descending sub frame of first parameter set determined according to first parameter set, and the PUCCH resource corresponding to the corresponding descending sub frame of second parameter set is determined according to second parameter set.
With reference to the 4th kind of possible implementation of first aspect, in the 5th kind of possible implementation of first aspect,
First preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
With reference in a first aspect, in the 6th kind of possible implementation of first aspect,
The rm-cell includes regular subelement, for determining first PUCCH resource in the resource that n-th of time resource is included according to the first rule, first equipment determines second PUCCH resource according to Second Rule in the resource that n-th of time resource is included.
With reference to the 6th kind of possible implementation of first aspect, in the 7th kind of possible implementation of first aspect,
First rule is first function, and the Second Rule is second function;
Or, first rule is the first timing relationship, and the Second Rule is the second timing relationship;
Or, first rule is the first PUCCH format, and the Second Rule is the second PUCCH format.
With reference to the 7th kind of possible implementation of the 6th kind of possible implementation or first aspect of first aspect, in the 8th kind of possible implementation of first aspect,
The regular subelement, it is additionally operable to determine the described first corresponding descending sub frame of regular corresponding descending sub frame and the Second Rule according to the second preset rules, PUCCH resource corresponding to the first regular corresponding descending sub frame determined according to the described first rule, and the PUCCH resource corresponding to the corresponding descending sub frame of the Second Rule is determined according to the Second Rule.
With reference to the 8th kind of possible implementation of first aspect, in the 9th kind of possible implementation of first aspect,
Second preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
With reference to first aspect to first aspect the 9th kind of possible implementation in any implementation, in the tenth kind of possible implementation of first aspect,
N-th of time resource includes n-th of subframe or n-th of time slot.
With reference to first aspect to first aspect the tenth kind of possible implementation in any implementation, in a kind of the tenth possible implementation of first aspect,
N-th of time resource is n-th of subframe, n=m1+ 6=m2+4。
Second aspect, the embodiment of the present invention provides a kind of second equipment, including:
Receiving unit, the m for receiving the transmission of the first equipment in the first Physical Uplink Control Channel PUCCH resource in n-th of time resource1The corresponding control information of individual descending sub frame;
The receiving unit, is additionally operable to receive the m that first equipment is sent in the second PUCCH resource in n-th of time resource2The corresponding control information of individual descending sub frame, the frequency resources width between first PUCCH resource and second PUCCH resource is less than or equal to the bandwidth of operation of first equipment.
With reference to second aspect, in the first possible implementation of second aspect,
First PUCCH resource is to be determined according to the first parameter in the resource that n-th of time resource is included, second PUCCH resource is to be determined according to the second parameter in the resource that n-th of time resource is included, first parameter belongs to the first parameter set, and second parameter belongs to the second parameter set.
With reference to the first possible implementation of second aspect, in second of possible implementation of second aspect,
The parameter in parameter and second parameter set in first parameter set is PUCCH response parameters;
Or, the parameter in first parameter set is that the parameter in resource block index or Physical Resource Block index, second parameter set is resource block index or Physical Resource Block index;
Or, the parameter in first parameter set is PUCCH indexes, and the parameter in second parameter set is PUCCH indexes.
With reference to second of possible implementation of the first possible implementation or second aspect of second aspect, in the third possible implementation of second aspect,
The value of i-th of parameter is determined according to i-th of parameter value in second parameter set and offset parameter values in first parameter set;
Or, the value of i-th of parameter is determined according to i-th of parameter value in first parameter set and offset parameter values in second parameter set.
With reference to second aspect the first possible implementation into the third possible implementation of second aspect any implementation, in the 4th kind of possible implementation of second aspect, second equipment also include Parameter Set units and the first transmitting element;
The Parameter Set units, for determining the corresponding descending sub frame of first parameter set and the corresponding descending sub frame of second parameter set and generating the first preset rules, PUCCH resource corresponding to the corresponding descending sub frame of first parameter set determined according to first parameter set, and the PUCCH resource corresponding to the corresponding descending sub frame of second parameter set is determined according to second parameter set;
First transmitting element, first preset rules for sending the Parameter Set units generation to first equipment.
With reference to the 4th kind of possible implementation of second aspect, in the 5th kind of possible implementation of second aspect,
First preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
With reference to second aspect, in the 6th kind of possible implementation of second aspect,
First PUCCH resource is to determine that second PUCCH resource is to be determined according to Second Rule in the resource that n-th of time resource is included in the resource that n-th of time resource is included according to the first rule.
With reference to the 6th kind of possible implementation of second aspect, in the 7th kind of possible implementation of second aspect,
First rule is first function, and the Second Rule is second function;
Or, first rule is the first timing relationship, and the Second Rule is the second timing relationship;
Or, first rule is the first PUCCH format, and the Second Rule is the second PUCCH format.
With reference to the 7th kind of possible implementation of the 6th kind of possible implementation or second aspect of second aspect, in the 8th kind of possible implementation of second aspect, second equipment also includes rules unit and the second transmitting element;
The rules unit, for determining the described first corresponding descending sub frame of regular corresponding descending sub frame and the Second Rule and generating the second preset rules, PUCCH resource corresponding to the first regular corresponding descending sub frame determined according to the described first rule, and the PUCCH resource corresponding to the corresponding descending sub frame of the Second Rule is determined according to the Second Rule;
Second transmitting element, second preset rules for sending the rules unit generation to first equipment.
With reference to the 8th kind of possible implementation of second aspect, in the 9th kind of possible implementation of second aspect,
Second preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
With reference to second aspect to second aspect the 9th kind of possible implementation in any implementation, in the tenth kind of possible implementation of second aspect,
N-th of time resource includes n-th of subframe or n-th of time slot.
With reference to second aspect to second aspect the tenth kind of possible implementation in any implementation, in a kind of the tenth possible implementation of second aspect,
N-th of time resource is n-th of subframe, n=m1+ 6=m2+4。
The third aspect, the embodiment of the present invention provides a kind of first equipment, including:
Rm-cell, for generating the first control information, first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the corresponding ascending control information of each descending sub frame is used to indicate a kind of state in x kind states, and first control information is used to indicate a kind of state in U kind states, U=x2, x, U is the integer more than 0;
Transmitting element, for t-th of the PUCCH channel of first control information and preset rules that are generated according to the rm-cell in T Physical Uplink Control Channel PUCCH channel first control information is sent to the second equipment, U kind state of the preset rules comprising first control information and the corresponding relation of the T PUCCH channels, T is the integer more than 0.
With reference to the third aspect, in the first possible implementation of the third aspect,
Each channel has a kind of state, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the T kind states of the T PUCCH channels, T=U in the T PUCCH channels;
Or, each channel has two states, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the 2T kind states of the T PUCCH channels, 2T=U in the T PUCCH channels.
With reference to the first possible implementation of the third aspect, in second of possible implementation of the third aspect,
The T PUCCH channels belong to n-th of subframe, and n=m1+k1=m2+k2
Fourth aspect, the embodiment of the present invention provides a kind of second equipment, including:
Receiving unit, the first control information that the first equipment is sent is received for t-th of PUCCH channel in T Physical Uplink Control Channel PUCCH channel, and first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the corresponding ascending control information of each descending sub frame is used to indicate a kind of state in x kind states, and first control information is used to indicate a kind of state in U kind states, U=x2, x, U is the integer more than 0;
Acquiring unit, for obtaining the receiving unit is received described first according to preset rules Control information, U kind state of the preset rules comprising first control information and the corresponding relation of the T PUCCH channels, T is the integer more than 0.
With reference to fourth aspect, in the first possible implementation of fourth aspect,
Each channel has a kind of state, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the T kind states of the T PUCCH channels, T=U in the T PUCCH channels;
Or, each channel has two states, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the 2T kind states of the T PUCCH channels, 2T=U in the T PUCCH channels.
With reference to the first possible implementation of fourth aspect, in second of possible implementation of fourth aspect,
The T PUCCH channels belong to n-th of subframe, and n=m1+k1=m2+k2
5th aspect, the embodiment of the present invention provides a kind of information transferring method, including:
First equipment determines the first Physical Uplink Control Channel PUCCH resource and the second PUCCH resource in n-th of time resource, wherein, frequency resources width between first PUCCH resource and second PUCCH resource is less than or equal to the bandwidth of operation of first equipment, and first PUCCH resource is used to carry m1The corresponding ascending control information of individual descending sub frame, second PUCCH resource is used to carry m2The corresponding ascending control information of individual descending sub frame;
First PUCCH resource described in first equipment utilization sends the m to second equipment1The corresponding control information of individual descending sub frame, the m is sent using second PUCCH resource to second equipment2The corresponding control information of individual descending sub frame.
With reference to the 5th aspect, in the first possible implementation of the 5th aspect, first equipment determines the first Physical Uplink Control Channel PUCCH resource and the second PUCCH resource in the resource that n-th of time resource is included, including:
First equipment determines first PUCCH resource according to the first parameter in the resource that n-th of time resource is included, first equipment determines second PUCCH resource according to the second parameter in the resource that n-th of time resource is included, first parameter belongs to the first parameter set, and second parameter belongs to the second parameter set.
With reference to the first possible implementation of the 5th aspect, in second of possible implementation of the 5th aspect,
The parameter in parameter and second parameter set in first parameter set is PUCCH response parameters;
Or, the parameter in first parameter set is that the parameter in resource block index or Physical Resource Block index, second parameter set is resource block index or Physical Resource Block index;
Or, the parameter in first parameter set is PUCCH indexes, and the parameter in second parameter set is PUCCH indexes.
With reference to the first possible implementation or second of possible implementation of the 5th aspect of the 5th aspect, in the third possible implementation of the 5th aspect,
The value of i-th of parameter is determined according to i-th of parameter value in second parameter set and offset parameter values in first parameter set;
Or, the value of i-th of parameter is determined according to i-th of parameter value in first parameter set and offset parameter values in second parameter set.
With reference to the 5th aspect the first possible implementation to the 5th aspect the third possible implementation in any implementation, the 5th aspect the 4th kind of possible implementation in, methods described also includes:
First equipment determines the corresponding descending sub frame of first parameter set and the corresponding descending sub frame of second parameter set according to the first preset rules, PUCCH resource corresponding to the corresponding descending sub frame of first parameter set determined according to first parameter set, and the PUCCH resource corresponding to the corresponding descending sub frame of second parameter set is determined according to second parameter set.
With reference to the 4th kind of possible implementation of the 5th aspect, in the 5th kind of possible implementation of the 5th aspect,
First preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
With reference to the 5th aspect, in the 6th kind of possible implementation of the 5th aspect, first equipment determines the first Physical Uplink Control Channel PUCCH resource and the second PUCCH resource in n-th of time resource, including:
First equipment determines first PUCCH resource according to the first rule in the resource that n-th of time resource is included, and first equipment determines second PUCCH resource according to Second Rule in the resource that n-th of time resource is included.
With reference to the 6th kind of possible implementation of the 5th aspect, in the 7th kind of possible implementation of the 5th aspect,
First rule is first function, and the Second Rule is second function;
Or, first rule is the first timing relationship, and the Second Rule is the second timing relationship;
Or, first rule is the first PUCCH format, and the Second Rule is the second PUCCH format.
With reference to the 6th kind of possible implementation or the 7th kind of possible implementation of the 5th aspect of the 5th aspect, in the 8th kind of possible implementation of the 5th aspect, methods described also includes:
First equipment determines the described first corresponding descending sub frame of regular corresponding descending sub frame and the Second Rule according to the second preset rules, PUCCH resource corresponding to the first regular corresponding descending sub frame determined according to the described first rule, and the PUCCH resource corresponding to the corresponding descending sub frame of the Second Rule is determined according to the Second Rule.
With reference to the 8th kind of possible implementation of the 5th aspect, in the 9th kind of possible implementation of the 5th aspect,
Second preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
With reference to the 5th aspect to the 5th aspect the 9th kind of possible implementation in any implementation, the 5th aspect the tenth kind of possible implementation in,
N-th of time resource includes n-th of subframe or n-th of time slot.
With reference to the 5th aspect to the 5th aspect the tenth kind of possible implementation in any implementation, the 5th aspect a kind of the tenth possible implementation in,
N-th of time resource is n-th of subframe, n=m1+ 6=m2+4。
6th aspect, the embodiment of the present invention provides a kind of information transferring method, including:
Second equipment, first Physical Uplink Control Channel PUCCH in n-th of time resource is provided The m of the first equipment transmission is received on source1The corresponding control information of individual descending sub frame;
Second equipment receives the m that first equipment is sent in n-th of time resource in the second PUCCH resource2The corresponding control information of individual descending sub frame, the frequency resources width between first PUCCH resource and second PUCCH resource is less than or equal to the bandwidth of operation of first equipment.
With reference to the 6th aspect, in the first possible implementation of the 6th aspect,
First PUCCH resource is to be determined according to the first parameter in the resource that n-th of time resource is included, second PUCCH resource is to be determined according to the second parameter in the resource that n-th of time resource is included, first parameter belongs to the first parameter set, and second parameter belongs to the second parameter set.
With reference to the first possible implementation of the 6th aspect, in second of possible implementation of the 6th aspect,
The parameter in parameter and second parameter set in first parameter set is PUCCH response parameters;
Or, the parameter in first parameter set is that the parameter in resource block index or Physical Resource Block index, second parameter set is resource block index or Physical Resource Block index;
Or, the parameter in first parameter set is PUCCH indexes, and the parameter in second parameter set is PUCCH indexes.
With reference to the first possible implementation or second of possible implementation of the 6th aspect of the 6th aspect, in the third possible implementation of the 6th aspect,
The value of i-th of parameter is determined according to i-th of parameter value in second parameter set and offset parameter values in first parameter set;
Or, the value of i-th of parameter is determined according to i-th of parameter value in first parameter set and offset parameter values in second parameter set.
With reference to the 6th aspect the first possible implementation to the 6th aspect the third possible implementation in any implementation, the 6th aspect the 4th kind of possible implementation in, methods described also includes:
Second equipment determines the corresponding descending sub frame of first parameter set and the corresponding descending sub frame of second parameter set, generates and sends the first preset rules to first equipment, PUCCH resource corresponding to the corresponding descending sub frame of first parameter set determined according to first parameter set, and the PUCCH resource corresponding to the corresponding descending sub frame of second parameter set is determined according to second parameter set.
With reference to the 4th kind of possible implementation of the 6th aspect, in the 5th kind of possible implementation of the 6th aspect,
First preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
With reference to the 6th aspect, in the 6th kind of possible implementation of the 6th aspect,
First PUCCH resource is to determine that second PUCCH resource is to be determined according to Second Rule in the resource that n-th of time resource is included in the resource that n-th of time resource is included according to the first rule.
With reference to the 6th kind of possible implementation of the 6th aspect, in the 7th kind of possible implementation of the 6th aspect,
First rule is first function, and the Second Rule is second function;
Or, first rule is the first timing relationship, and the Second Rule is the second timing relationship;
Or, first rule is the first PUCCH format, and the Second Rule is the second PUCCH format.
With reference to the 6th kind of possible implementation or the 7th kind of possible implementation of the 6th aspect of the 6th aspect, in the 8th kind of possible implementation of the 6th aspect, methods described also includes:
Second equipment determines the described first corresponding descending sub frame of regular corresponding descending sub frame and the Second Rule, generate and send the second preset rules to first equipment, PUCCH resource corresponding to the first regular corresponding descending sub frame determined according to the described first rule, and the PUCCH resource corresponding to the corresponding descending sub frame of the Second Rule is determined according to the Second Rule.
With reference to the 8th kind of possible implementation of the 6th aspect, in the 9th kind of possible implementation of the 6th aspect,
Second preset rules are carried in physical layer signaling, Medium Access Layer signaling, wireless money Sent in one or more of source control signaling signaling to first equipment.
With reference to the 6th aspect to the 6th aspect the 9th kind of possible implementation in any implementation, the 6th aspect the tenth kind of possible implementation in,
N-th of time resource includes n-th of subframe or n-th of time slot.
With reference to the 6th aspect to the 6th aspect the tenth kind of possible implementation in any implementation, the 6th aspect a kind of the tenth possible implementation in,
N-th of time resource is n-th of subframe, n=m1+ 6=m2+4。
7th aspect, the embodiment of the present invention provides a kind of information transferring method, including:
First equipment generates the first control information, and first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the corresponding ascending control information of each descending sub frame is used to indicate a kind of state in x kind states, and first control information is used to indicate a kind of state in U kind states, U=x2, x, U is the integer more than 0;
First equipment sends first control information according to t-th of PUCCH channel in T Physical Uplink Control Channel PUCCH channel of first control information and preset rules to the second equipment, U kind state of the preset rules comprising first control information and the corresponding relation of the T PUCCH channels, T is the integer more than 0.
With reference to the 7th aspect, in the first possible implementation of the 7th aspect,
Each channel has a kind of state, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the T kind states of the T PUCCH channels, T=U in the T PUCCH channels;
Or, each channel has two states, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the 2T kind states of the T PUCCH channels, 2T=U in the T PUCCH channels.
With reference to the first possible implementation of the 7th aspect, in second of possible implementation of the 7th aspect,
The T PUCCH channels belong to n-th of subframe, and n=m1+k1=m2+k2
Eighth aspect, the embodiment of the present invention provides a kind of information transferring method, including:
T-th in T Physical Uplink Control Channel PUCCH channel of second equipment PUCCH channels receive the first control information that the first equipment is sent, and first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the corresponding ascending control information of each descending sub frame is used to indicate a kind of state in x kind states, and first control information is used to indicate a kind of state in U kind states, U=x2, x, U is the integer more than 0;
Second equipment obtains first control information, U kind state of the preset rules comprising first control information and the corresponding relation of the T PUCCH channels according to preset rules, and T is the integer more than 0.
With reference to eighth aspect, in the first possible implementation of eighth aspect,
Each channel has a kind of state, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the T kind states of the T PUCCH channels, T=U in the T PUCCH channels;
Or, each channel has two states, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the 2T kind states of the T PUCCH channels, 2T=U in the T PUCCH channels.
With reference to the first possible implementation of eighth aspect, in second of possible implementation of eighth aspect,
The T PUCCH channels belong to n-th of subframe, and n=m1+k1=m2+k2
9th aspect, the embodiment of the present invention provides a kind of wireless communication system, including:First equipment and the second equipment;
First equipment is the first equipment described in any one possible implementation of first aspect or first aspect, and second equipment is the second equipment described in any one possible implementation of second aspect or second aspect.
Tenth aspect, the embodiment of the present invention provides a kind of wireless communication system, including:First equipment and the second equipment;
First equipment is the first equipment described in any one possible implementation of the third aspect or the third aspect, and second equipment is the second equipment described in any one possible implementation of fourth aspect or fourth aspect.
A kind of information transferring method provided in an embodiment of the present invention, equipment and system, the first equipment The first PUCCH resource and the second PUCCH resource are determined in n-th of time resource, frequency resources width between first PUCCH resource and the second PUCCH resource is less than or equal to the bandwidth of operation of the first equipment, and first the first PUCCH resource of equipment utilization sends m to base station1The corresponding control information of individual descending sub frame, m is sent using the second PUCCH resource to base station2The corresponding control information of individual descending sub frame, so, feeds back the resource taken to the ACK/NACK of each descending sub frame and is defined, solve user equipment in the prior art and feed back the problem of shared resource conflicts to the ACK/NACK of descending sub frame.
Brief description of the drawings
In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, the accompanying drawing used required in being described below to embodiment is briefly described, apparently, drawings in the following description are only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, other accompanying drawings can also be obtained according to these accompanying drawings.
A kind of resource mapping method schematic diagram by frequency-hopping transmissions ascending control information that Fig. 1 provides for prior art;
ACK/NACK feeds back the subframe schematic diagram taken during a kind of transmission ascending control information by frequency hopping that Fig. 2 provides for prior art;
Fig. 3 is a kind of information transferring method schematic flow sheet provided in an embodiment of the present invention;
The subframe schematic diagram that Fig. 4 takes for a kind of PUCCH resource provided in an embodiment of the present invention;
A kind of information transferring method schematic flow sheet that Fig. 5 provides for another embodiment of the present invention;
Fig. 6 is another information transferring method schematic flow sheet provided in an embodiment of the present invention;
Fig. 7 is a kind of subframe schematic diagram of PUCCH channel occupancies provided in an embodiment of the present invention;
Fig. 8 is the subframe schematic diagram of another PUCCH channel occupancies provided in an embodiment of the present invention;
Another information transferring method schematic flow sheet that Fig. 9 provides for another embodiment of the present invention;
Figure 10 is a kind of first device structure schematic diagram provided in an embodiment of the present invention;
Figure 11 is a kind of second device structure schematic diagram provided in an embodiment of the present invention;
A kind of first device structure schematic diagram that Figure 12 provides for another embodiment of the present invention;
A kind of second device structure schematic diagram that Figure 13 provides for another embodiment of the present invention;
Figure 14 is another first device structure schematic diagram provided in an embodiment of the present invention;
Figure 15 is another second device structure schematic diagram provided in an embodiment of the present invention;
Another first device structure schematic diagram that Figure 16 provides for another embodiment of the present invention;
Another second device structure schematic diagram that Figure 17 provides for another embodiment of the present invention;
Figure 18 is a kind of wireless communication system architecture schematic diagram provided in an embodiment of the present invention;
Figure 19 is another wireless communication system architecture schematic diagram provided in an embodiment of the present invention.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made belongs to the scope of protection of the invention.
It should be understood that the technical scheme of the embodiment of the present invention can apply to various communication systems, such as:Global system for mobile telecommunications (Global System of Mobile communication, GSM) system, CDMA (Code Division Multiple Access, CDMA) system, WCDMA (Wideband Code Division Multiple Access, WCDMA) system, GPRS (General Packet Radio Service, GPRS), Long Term Evolution (Long Term Evolution, LTE) system, LTE FDDs (Frequency Division Duplex, FDD) system, LTE time division duplexs (Time Division Duplex, TDD), UMTS (Universal Mobile Telecommunication System, ) or global interconnection inserting of microwave (Worldwide Interoperability for Microwave Access UMTS, WiMAX) communication system etc..The LTE system of access is aided in particularly for licensed spectrum resource, i.e. license auxiliary access LTE system (Licensed-Assisted Access, LTE) system.LAA-LTE systems refer to licensed spectrum resource and exempt from the LTE system that licensed spectrum resource is used together by carrier aggregation (Carrier Aggregation, CA) mode or non-CA modes.
It should be understood that in embodiments of the present invention, the first equipment or the second equipment include but is not limited to user equipment (English full name:User Equipment, English abbreviation:UE), mobile station (English full name:Mobile Station, English abbreviation:MS), mobile terminal (Mobile Terminal), mobile phone (Mobile Telephone), mobile phone (handset) and portable equipment (portable equipment) etc., the user equipment can be through wireless access network (English full name:Radio Access Network, English abbreviation:RAN) communicated with one or more core nets, for example, user equipment can be mobile phone (or for " honeycomb " phone), computer with radio communication function etc., user equipment can also be portable, pocket, hand-held, built-in computer or vehicle-mounted mobile device, it should be noted that user equipment can be relaying (Relay) equipment, the present invention is without limitation.
In the embodiment of the present invention, the first equipment can be user equipment, and the second equipment can be base station (the English full name in GSM or CDMA:Base Transceiver Station, english abbreviation:BTS the base station (NodeB)) or in WCDMA, can also be evolved base station (the English full name in LTE:Evolved Node B, english abbreviation:ENB or e-NodeB), the embodiment of the present invention is not limited.
Cell described in the embodiment of the present invention can be the corresponding cell in base station, and the cell may belong to macro base station, can also belong to micro-base station, for example:Cell (English:Small Cell) corresponding base station.Here cell can include again:Urban cells (English:Metro Cell), Microcell (English:Mico Cell), picocell (English:Pico Cell), Femto cell (English:Femto Cell) etc., these cells have the characteristics of coverage is small, transmission power is low, it is adaptable to provide the data transport service of high-speed.
In the embodiment of the present invention, the carrier wave in LTE system is equal with the concept of cell, such as it is equivalent that UE, which accesses one cell of a carrier wave and access, is introduced in the present invention by unified with the concept of cell.
The embodiment of the present invention provides a kind of information transferring method, it is preferred that applied to LTE system, shown in reference picture 3, comprise the following steps:
301st, the first equipment determines the first PUCCH (Physical Uplink Control Channel, Physical Uplink Control Channel) resources and the second PUCCH resource in n-th of time resource.
Wherein, the frequency resources width between the first PUCCH resource and the second PUCCH resource is less than or equal to the bandwidth of operation of the first equipment, and the first PUCCH resource is used to carry m1The corresponding ascending control information of individual descending sub frame, the second PUCCH resource is used to carry m2The corresponding ascending control information of individual descending sub frame, herein, it is necessary to which explanation, the first PUCCH resource is used to carry m1The corresponding ascending control information of individual descending sub frame, but do not represent the first PUCCH resource and carry m1The full content of the corresponding ascending control information of individual descending sub frame, the first PUCCH resource can only carry m1The partial information of the corresponding ascending control information of individual descending sub frame, similarly, carrying mentioned here is served only for limiting its function the second PUCCH resource.
Optionally, the present embodiment is enumerated two kinds of specific application scenarios and illustrated, and certainly, is merely illustrative herein, does not represent that the present invention is limited to this:
First, it is optional, in the first application scenarios, first equipment determines the first PUCCH resource according to the first parameter in the resource that n-th of time resource is included, first equipment determines the second PUCCH resource according to the second parameter in the resource that n-th of time resource is included, first parameter belongs to the first parameter set, and the second parameter belongs to the second parameter set.Wherein, the first parameter set and the second parameter set can be that system is predefined or signal deployment.
Specific optional, the parameter in parameter and the second parameter set in the first parameter set is PUCCH response parameters, and PUCCH responses parameter can be ACK/NACK (answering/no answering) information;Or, the parameter in the first parameter set is that the parameter in resource block index or Physical Resource Block index, the second parameter set is resource block index or Physical Resource Block index;Or, the parameter in the first parameter set is that the parameter in PUCCH indexes, the second parameter set is PUCCH indexes.
Further alternative, the value of i-th of parameter can be determined according to i-th of parameter value in the second parameter set and offset parameter values in the first parameter set;Or, the value of i-th of parameter can be determined according to i-th of parameter value in the first parameter set and offset parameter values in the second parameter set.
In addition, optionally, first equipment can also determine the corresponding descending sub frame of the first parameter set and the corresponding descending sub frame of the second parameter set according to the first preset rules, PUCCH resource corresponding to the corresponding descending sub frame of first parameter set determines that the PUCCH resource corresponding to the corresponding descending sub frame of the second parameter set is determined according to the second parameter set according to the first parameter set.That is First equipment determines that PUCCH resource that the corresponding ascending control information of which descending sub frame takes is that parameter in the first parameter set is determined according to the first preset rules, and the PUCCH resource of the corresponding ascending control information occupancy of which descending sub frame is that the parameter in the second parameter set is determined.For example, preset rules can be that the PUCCH resource of the corresponding ascending control information occupancy of descending sub frame of even number needs the parameter in the first parameter set to determine with indicating downlink subframe number, and descending sub frame numbering is that parameter of the PUCCH resource needs of the corresponding ascending control information occupancy of descending sub frame of odd number in the second parameter set is determined.Further alternative, the first equipment receives the first preset rules that the second equipment is sent, and the first preset rules can be carried to be sent to the first equipment in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling.
2nd, optional, in second of application scenarios, the first equipment determines the first PUCCH resource according to the first rule in the resource that n-th of time resource is included, and the first equipment determines the second PUCCH resource according to Second Rule in the resource that n-th of time resource is included.Wherein, the first rule and Second Rule can be that system is predefined or signal deployment.
Specific optional, the first rule is first function, and Second Rule is second function;Or, the first rule is the first timing relationship, and Second Rule is the second timing relationship;Or, the first rule is the first PUCCH format, and Second Rule is the second PUCCH format.
In addition, optionally, first equipment can determine the corresponding descending sub frame of the first regular corresponding descending sub frame and Second Rule according to the second preset rules, PUCCH resource corresponding to first regular corresponding descending sub frame determines that the PUCCH resource corresponding to the corresponding descending sub frame of Second Rule is determined according to Second Rule according to the first rule.That is the first equipment determines that the PUCCH resource that the corresponding ascending control information of which descending sub frame takes is determined according to the first rule according to the second preset rules, and the PUCCH resource that the corresponding ascending control information of which descending sub frame takes is determined according to Second Rule.Further alternative, the first equipment receives the second preset rules that the second equipment is sent, and second preset rules can be carried to be sent to the first equipment in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling.
It should be noted that n-th of time resource can include n-th of subframe or n-th of time slot in the present embodiment, subframe and time slot are two kinds of specific time resource units, are not represented The present invention is limited to this.As shown in figure 4, n-th of time resource can be n-th of subframe, n=m in Fig. 41+ 6=m2+4。
302nd, first the first PUCCH resource of equipment utilization sends m to base station1The corresponding control information of individual descending sub frame, m is sent using the second PUCCH resource to base station2The corresponding control information of individual descending sub frame.
Information transferring method provided in an embodiment of the present invention, first equipment determines the first PUCCH resource and the second PUCCH resource in n-th of time resource, frequency resources width between first PUCCH resource and the second PUCCH resource is less than or equal to the bandwidth of operation of the first equipment, and first the first PUCCH resource of equipment utilization sends m to base station1The corresponding control information of individual descending sub frame, m is sent using the second PUCCH resource to base station2The corresponding control information of individual descending sub frame, so, feeds back the resource taken to the ACK/NACK of each descending sub frame and is defined, solve user equipment in the prior art and feed back the problem of shared resource conflicts to the ACK/NACK of descending sub frame.
Another embodiment of the present invention provides a kind of information transferring method, the receiving terminal of the information transferring method described in the corresponding embodiment of corresponding diagram 3, it is preferred that applied to LTE system, shown in reference picture 5, comprise the following steps:
501st, the second equipment receives the m of the first equipment transmission in n-th of time resource in the first PUCCH resource1The corresponding control information of individual descending sub frame.
502nd, the second equipment receives the corresponding control information of the m2 descending sub frame of the first equipment transmission in n-th of time resource in the second PUCCH resource, and the frequency resources width between the first PUCCH resource and the second PUCCH resource is less than or equal to the bandwidth of operation of the first equipment.
Herein, it is necessary to which explanation, step 501 and step 502 can be without sequencings, the first PUCCH resource is used to carry m1The corresponding ascending control information of individual descending sub frame, but do not represent the first PUCCH resource and carry m1The full content of the corresponding ascending control information of individual descending sub frame, the first PUCCH resource can only carry m1The partial information of the corresponding ascending control information of individual descending sub frame, similarly, carrying mentioned here is served only for limiting its function the second PUCCH resource.
Optionally, the present embodiment is enumerated two kinds of specific application scenarios and illustrated, certainly, this Place is merely illustrative, and does not represent that the present invention is limited to this:
First, it is optional, in the first application scenarios, first PUCCH resource is to be determined according to the first parameter in the resource that n-th of time resource is included, second PUCCH resource is to be determined according to the second parameter in the resource that n-th of time resource is included, first parameter belongs to the first parameter set, and the second parameter belongs to the second parameter set.Wherein, the first parameter set and the second parameter set can be that system is predefined or signal deployment.
Specific optional, the parameter in parameter and the second parameter set in the first parameter set is PUCCH response parameters, and PUCCH responses parameter can be ACK/NACK (answering/no answering) information;Or, the parameter in the first parameter set is that the parameter in resource block index or Physical Resource Block index, the second parameter set is resource block index or Physical Resource Block index;Or, the parameter in the first parameter set is that the parameter in PUCCH indexes, the second parameter set is PUCCH indexes.
Further alternative, the value of i-th of parameter can be determined according to i-th of parameter value in the second parameter set and offset parameter values in the first parameter set;Or, the value of i-th of parameter can be determined according to i-th of parameter value in the first parameter set and offset parameter values in the second parameter set.
In addition, optionally, second equipment determines the corresponding descending sub frame of the first parameter set and the corresponding descending sub frame of the second parameter set, generate and send the first preset rules to the first equipment, PUCCH resource corresponding to the corresponding descending sub frame of first parameter set determines that the PUCCH resource corresponding to the corresponding descending sub frame of the second parameter set is determined according to the second parameter set according to the first parameter set.That is it can determine that PUCCH resource that the corresponding ascending control information of which descending sub frame takes is that parameter in the first parameter set is determined according to the first preset rules, the PUCCH resource of the corresponding ascending control information occupancy of which descending sub frame is that the parameter in the second parameter set is determined.For example, preset rules can be that the PUCCH resource of the corresponding ascending control information occupancy of descending sub frame of even number needs the parameter in the first parameter set to determine with indicating downlink subframe number, and descending sub frame numbering is that parameter of the PUCCH resource needs of the corresponding ascending control information occupancy of descending sub frame of odd number in the second parameter set is determined.Further alternative, the first preset rules can be carried to be sent to the first equipment in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling.
2nd, optional, in second of application scenarios, the first PUCCH resource is according to the What one rule was determined in the resource that n-th of time resource is included, the second PUCCH resource is to be determined according to Second Rule in the resource that n-th of time resource is included.Wherein, the first rule and Second Rule can be that system is predefined or signal deployment.
Specific optional, the first rule is first function, and Second Rule is second function;Or, the first rule is the first timing relationship, and Second Rule is the second timing relationship;Or, the first rule is the first PUCCH format, and Second Rule is the second PUCCH format.
In addition, optionally, second equipment determines the corresponding descending sub frame of the first regular corresponding descending sub frame and Second Rule, generate and send the second preset rules to the first equipment, PUCCH resource corresponding to first regular corresponding descending sub frame determines that the PUCCH resource corresponding to the corresponding descending sub frame of Second Rule is determined according to Second Rule according to the first rule.That is it can determine that the PUCCH resource that the corresponding ascending control information of which descending sub frame takes is determined according to the first rule according to the second preset rules, the PUCCH resource that the corresponding ascending control information of which descending sub frame takes is determined according to Second Rule.Further alternative, second preset rules can be carried to be sent to the first equipment in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling.
It should be noted that n-th time resource can include n-th of subframe or n-th of time slot in the present embodiment, subframe and time slot are two kinds of specific time resource units, do not represent that the present invention is limited to this.For example, n-th of time resource can be n-th of subframe, n=m1+ 6=m2+4。
Information transferring method provided in an embodiment of the present invention, the second equipment receives the m of the first equipment transmission in n-th of time resource in the first Physical Uplink Control Channel PUCCH resource1The corresponding control information of individual descending sub frame, the corresponding control information of the m2 descending sub frame of the first equipment transmission is received in the second PUCCH resource in n-th of time resource, frequency resources width between first PUCCH resource and the second PUCCH resource is less than or equal to the bandwidth of operation of the first equipment,, solve user equipment in the prior art and the problem of shared resource conflicts fed back to the ACK/NACK of descending sub frame.
The embodiment of the present invention provides another information transferring method, can information transferring method corresponding with Fig. 3 be used in combination, shown in reference picture 6, comprise the following steps:
601st, the first equipment generates the first control information.
First control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the corresponding ascending control information of each descending sub frame is used to indicate a kind of state in x kind states, and the first control information is used to indicate a kind of state in U kind states, U=x2, x, U is the integer more than 0.Exemplary, the corresponding ascending control information of each descending sub frame can include ACK (response) states and NACK (negative response) two states, the corresponding ascending control information of two descending sub frames can just be combined into " (ACK; ACK), (ACK; NACK), (NACK; ACK), (NACK, NACK) " four kinds of states.
602nd, the first equipment sends the first control information according to t-th of PUCCH channel in T PUCCH channel of the first control information and preset rules to the second equipment.
U kind state of the preset rules comprising the first control information and the corresponding relation of T PUCCH channel, T is the integer more than 0.
The present embodiment is enumerated two kinds of specific application scenarios and illustrated, and certainly, is merely illustrative herein, does not represent that the present invention is limited to this:
First, optional, in the first application scenarios, each channel has a kind of state, the one-to-one relationship between U kinds state of the preset rules comprising the first control information and the T kind states of T PUCCH channel, T=U in T PUCCH channel.
Exemplary, by taking x=2 as an example, with reference to the description of step 601, shown in reference picture 7, m2=m1+ 2, T=4, indicate m with channel 1, channel 2, channel 3 and channel 4 according to the corresponding relation shown in table one respectively1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, channel 1 is located at m1+ 4 subframes, channel 2 is located at m1+ 6 subframes, channel 3 is located at m2+ 4 subframes, channel 4 is located at m1+ 6 subframes, channel 2 and channel 3 belong to same subframe.
Table one
PUCCH channels The state of control information
Channel 1 ACK, ACK
Channel 2 ACK, NACK
Channel 3 NACK, ACK
Channel 4 NACK, NACK
For example, when the first control information is sent on channel 2, representing m1The corresponding ascending control information of individual descending sub frame is ACK states, m2The corresponding ascending control information of individual descending sub frame is NACK states.
2nd, optional, in second of application scenarios, each channel has two states, the one-to-one relationship between U kinds state of the preset rules comprising the first control information and the 2T kind states of T PUCCH channel, 2T=U in T PUCCH channel.
Exemplary, by taking x=2 as an example, with reference to the description of step 601, shown in reference picture 8, m2=m1+ 2, T=2, it is preferred that the two states of channel 1 and channel 2 are bit status, comprising " 0 " and " 1 ", show that channel 1 and channel 2 take the two ways of resource in Fig. 8.In Fig. 8, channel 1 is located at m1+ 4 subframes and m1+ 6 subframes, channel 2 is located at m2+ 4 subframes and m2+ 6 subframes, or, channel 1 and channel 2 are respectively positioned on m2+ 4 subframes and m2+ 6 subframes, certainly, are merely illustrative herein, do not represent that the present invention is limited to this.Specifically, channel 1 and channel 2 indicate m according to the corresponding relation shown in table two1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame.
Table two
PUCCH channels Bit status The state of control information
Channel 1 0 ACK, ACK
Channel 2 1 ACK, NACK
Channel 3 0 NACK, ACK
Channel 4 1 NACK, NACK
For example, is sent on channel 2 when the first control information, and the bit of channel 2 that indicates of the first control information is when being 1, expression m1The corresponding ascending control information of individual descending sub frame is ACK states, m2The corresponding ascending control information of individual descending sub frame is NACK states.
It should be noted that T PUCCH channel may belong to n-th of subframe, and n=m1+k1=m2+k2.In the present embodiment simply by taking subframe as an example, T PUCCH channel can also be mapped according to time slot units, and subframe and time slot are two kinds of specific time resource units, not represent that the present invention is limited to this.
In the prior art, shown in reference picture 2, when using FM transmission ascending control information, Because there is several time slots to need to carry out in subframe n+5 progress frequency hoppings in the tuning of frequency location, Fig. 2, and subframe n+5 resource is originally used for carrying out ACK/NACK feedbacks to subframe n+1, and this make it that to subframe n+1 ACK/NACK feedbacks can not be carried out.And the ACK/NACK that the present invention indicates two descending sub frames by a PUCCH channel feeds back, when solving in the prior art by frequency-hopping transmissions ascending control information simultaneously, it is impossible to the problem of carrying out ACK/NACK feedbacks to part descending sub frame.
Information transferring method provided in an embodiment of the present invention, the first equipment generates the first control information, and the first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, first equipment sends the first control information according to t-th of PUCCH channel in T PUCCH channel of the first control information and preset rules to the second equipment, the ACK/NACK feedbacks of two subframes are indicated using a PUCCH channel, when solving in the prior art by frequency-hopping transmissions ascending control information, it is impossible to the problem of carrying out ACK/NACK feedbacks to part descending sub frame.
Another embodiment of the present invention provides another information transferring method, the receiving terminal of the information transferring method described in the corresponding embodiment of corresponding diagram 6, can information transferring method corresponding with Fig. 5 be used in combination, it is preferred that, applied to LTE system, shown in reference picture 9, comprise the following steps:
901st, t-th PUCCH channel of second equipment in T PUCCH channel receives the first control information that the first equipment is sent.
First control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the corresponding ascending control information of each descending sub frame is used to indicate a kind of state in x kind states, and the first control information is used to indicate a kind of state in U kind states, U=x2, x, U is the integer more than 0.Exemplary, the corresponding ascending control information of each descending sub frame can include ACK (response) states and NACK (negative response) two states, the corresponding ascending control information of two descending sub frames can just be combined into " (ACK; ACK), (ACK; NACK), (NACK; ACK), (NACK, NACK) " four kinds of states.
902nd, the second equipment obtains the first control information according to preset rules.
U kind state of the preset rules comprising the first control information and pair of T PUCCH channel It should be related to, T is the integer more than 0.
The present embodiment is enumerated two kinds of specific application scenarios and illustrated, and certainly, is merely illustrative herein, does not represent that the present invention is limited to this:
First, optional, in the first application scenarios, each channel has a kind of state, the one-to-one relationship between U kinds state of the preset rules comprising the first control information and the T kind states of T PUCCH channel, T=U in T PUCCH channel;
2nd, optional, in second of application scenarios, each channel has two states, the one-to-one relationship between U kinds state of the preset rules comprising the first control information and the 2T kind states of T PUCCH channel, 2T=U in T PUCCH channel.
It should be noted that T PUCCH channel may belong to n-th of subframe, and n=m1+k1=m2+k2.In the present embodiment simply by taking subframe as an example, T PUCCH channel can also be mapped according to time slot units, and subframe and time slot are two kinds of specific time resource units, not represent that the present invention is limited to this.
In the prior art, shown in reference picture 2, when using FM transmission ascending control information, because there is several time slots to need to carry out the tuning of frequency location, in Fig. 2 frequency hopping is carried out in subframe n+5, and subframe n+5 resource is originally used for carrying out ACK/NACK feedbacks to subframe n+1, this make it that to subframe n+1 ACK/NACK feedbacks can not be carried out.And the ACK/NACK that the present invention indicates two descending sub frames by a PUCCH channel feeds back, when solving in the prior art by frequency-hopping transmissions ascending control information simultaneously, it is impossible to the problem of carrying out ACK/NACK feedbacks to part descending sub frame.
Information transferring method provided in an embodiment of the present invention, t-th PUCCH channel of second equipment in T PUCCH channel receives the first control information that the first equipment is sent, and the first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, second equipment obtains the first control information according to preset rules, the ACK/NACK feedbacks of two subframes are indicated using a PUCCH channel, when solving in the prior art by frequency-hopping transmissions ascending control information, it is impossible to the problem of carrying out ACK/NACK feedbacks to part descending sub frame.
Based on the corresponding embodiments of above-mentioned Fig. 3, the embodiment of the present invention provides a kind of first equipment, for performing the information transferring method described in the corresponding embodiments of above-mentioned Fig. 3, reference picture Shown in 10, first equipment 100 includes rm-cell 1001 and transmitting element 1002.
Rm-cell 1001, for determining the first Physical Uplink Control Channel PUCCH resource and the second PUCCH resource in n-th of time resource, wherein, frequency resources width between first PUCCH resource and the second PUCCH resource is less than or equal to the bandwidth of operation of the first equipment, and the first PUCCH resource is used to carry m1The corresponding ascending control information of individual descending sub frame, the second PUCCH resource is used to carry m2The corresponding ascending control information of individual descending sub frame.
Transmitting element 1002, m is sent for the first PUCCH resource using the determination of rm-cell 1001 to the second equipment1The corresponding control information of individual descending sub frame, the second PUCCH resource determined using rm-cell sends m to the second equipment2The corresponding control information of individual descending sub frame.
Optionally, in the first application scenarios,
1001 yuan of resource management list includes parameter set subelement 10011, for determining the first PUCCH resource in the resource that n-th of time resource is included according to the first parameter, first equipment determines the second PUCCH resource according to the second parameter in the resource that n-th of time resource is included, first parameter belongs to the first parameter set, and the second parameter belongs to the second parameter set.
Further alternative, the parameter in parameter and the second parameter set in the first parameter set is PUCCH response parameters;
Or, the parameter in the first parameter set is that the parameter in resource block index or Physical Resource Block index, the second parameter set is resource block index or Physical Resource Block index;
Or, the parameter in the first parameter set is that the parameter in PUCCH indexes, the second parameter set is PUCCH indexes.
Optionally, the value of i-th of parameter is determined according to i-th of parameter value in the second parameter set and offset parameter values in the first parameter set;
Or, the value of i-th of parameter is determined according to i-th of parameter value in the first parameter set and offset parameter values in the second parameter set.
Optionally, parameter set subelement 10011, it is additionally operable to determine the corresponding descending sub frame of the first parameter set and the corresponding descending sub frame of the second parameter set according to the first preset rules, the PUCCH resource corresponding to the corresponding descending sub frame of the first parameter set is determined according to the first parameter set, the second ginseng PUCCH resource corresponding to the corresponding descending sub frame of manifold is determined according to the second parameter set.
Optionally, the first preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to the first equipment.
Or, optionally, in second of application scenarios,
Rm-cell 1001 includes regular subelement 10011, for determining the first PUCCH resource in the resource that n-th of time resource is included according to the first rule, the first equipment determines the second PUCCH resource according to Second Rule in the resource that n-th of time resource is included.
Further alternative, the first rule is first function, and Second Rule is second function;
Or, the first rule is the first timing relationship, and Second Rule is the second timing relationship;
Or, the first rule is the first PUCCH format, and Second Rule is the second PUCCH format.
Optionally, regular subelement 10011, it is additionally operable to determine the corresponding descending sub frame of the first regular corresponding descending sub frame and Second Rule according to the second preset rules, PUCCH resource corresponding to first regular corresponding descending sub frame determines that the PUCCH resource corresponding to the corresponding descending sub frame of Second Rule is determined according to Second Rule according to the first rule.
Optionally, the second preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to the first equipment.
Optionally, n-th of time resource includes n-th of subframe or n-th of time slot.It is preferred that, n-th of time resource is n-th of subframe, n=m1+ 6=m2+4。
First equipment provided in an embodiment of the present invention, the first PUCCH resource and the second PUCCH resource are determined in n-th of time resource, frequency resources width between first PUCCH resource and the second PUCCH resource is less than or equal to the bandwidth of operation of the first equipment, and m is sent to base station using the first PUCCH resource1The corresponding control information of individual descending sub frame, m is sent using the second PUCCH resource to base station2The corresponding control information of individual descending sub frame, so, feeds back the resource taken to the ACK/NACK of each descending sub frame and is defined, solve user equipment in the prior art and feed back the problem of shared resource conflicts to the ACK/NACK of descending sub frame.
Based on the corresponding embodiments of above-mentioned Fig. 5, the embodiment of the present invention provides a kind of second equipment, for performing the information transferring method described in the corresponding embodiments of above-mentioned Fig. 5, reference picture 11 Shown, second equipment 110 includes receiving unit 1101.
Receiving unit 1101, the m for receiving the transmission of the first equipment in the first Physical Uplink Control Channel PUCCH resource in n-th of time resource1The corresponding control information of individual descending sub frame.
Receiving unit 1101, is additionally operable to receive the m of the first equipment transmission in the second PUCCH resource in n-th of time resource2The corresponding control information of individual descending sub frame, the frequency resources width between the first PUCCH resource and the second PUCCH resource is less than or equal to the bandwidth of operation of the first equipment.
Optionally, in the first application scenarios,
First PUCCH resource is to be determined according to the first parameter in the resource that n-th of time resource is included, second PUCCH resource is to be determined according to the second parameter in the resource that n-th of time resource is included, first parameter belongs to the first parameter set, and the second parameter belongs to the second parameter set.
Further alternative, the parameter in parameter and the second parameter set in the first parameter set is PUCCH response parameters;
Or, the parameter in the first parameter set is that the parameter in resource block index or Physical Resource Block index, the second parameter set is resource block index or Physical Resource Block index;
Or, the parameter in the first parameter set is that the parameter in PUCCH indexes, the second parameter set is PUCCH indexes.
Optionally, the value of i-th of parameter is determined according to i-th of parameter value in the second parameter set and offset parameter values in the first parameter set;
Or, the value of i-th of parameter is determined according to i-th of parameter value in the first parameter set and offset parameter values in the second parameter set.
Optionally, the second equipment 110 also includes the transmitting element 1103 of Parameter Set units 1102 and first.
Parameter Set units 1102, for determining the corresponding descending sub frame of the first parameter set and the corresponding descending sub frame of the second parameter set and generating the first preset rules, PUCCH resource corresponding to the corresponding descending sub frame of first parameter set determines that the PUCCH resource corresponding to the corresponding descending sub frame of the second parameter set is determined according to the second parameter set according to the first parameter set.
First transmitting element 1103, for sending the first preset rules that Parameter Set units 1102 are generated to the first equipment.
Optionally, the first preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to the first equipment.
Or, optionally, in second of application scenarios,
First PUCCH resource is to determine that the second PUCCH resource is to be determined according to Second Rule in the resource that n-th of time resource is included in the resource that n-th of time resource is included according to the first rule.
Further alternative, the first rule is first function, and Second Rule is second function;
Or, the first rule is the first timing relationship, and Second Rule is the second timing relationship;
Or, the first rule is the first PUCCH format, and Second Rule is the second PUCCH format.
Second equipment 110 also includes the transmitting element 1105 of rules unit 1104 and second;
Rules unit 1104, for determining the corresponding descending sub frame of the first regular corresponding descending sub frame and Second Rule and generating the second preset rules, PUCCH resource corresponding to first regular corresponding descending sub frame determines that the PUCCH resource corresponding to the corresponding descending sub frame of Second Rule is determined according to Second Rule according to the first rule.
Second transmitting element 1105, for sending the second preset rules that rules unit 1104 is generated to the first equipment.
Optionally, the second preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to the first equipment.
Optionally, n-th of time resource includes n-th of subframe or n-th of time slot.It is preferred that, n-th of time resource is n-th of subframe, n=m1+ 6=m2+4。
Second equipment provided in an embodiment of the present invention, receives the m of the first equipment transmission in n-th of time resource in the first Physical Uplink Control Channel PUCCH resource1The corresponding control information of individual descending sub frame, the corresponding control information of the m2 descending sub frame of the first equipment transmission is received in the second PUCCH resource in n-th of time resource, frequency resources width between first PUCCH resource and the second PUCCH resource is less than or equal to the bandwidth of operation of the first equipment,, solve user equipment in the prior art and shared fed back to the ACK/NACK of descending sub frame The problem of resource conflicts.
Based on the corresponding embodiments of above-mentioned Fig. 3, another embodiment of the present invention provides a kind of first equipment, for performing the information transferring method described in the corresponding embodiments of above-mentioned Fig. 3, shown in reference picture 12, first equipment 120 at least one processor 1201, memory 1202, bus 1203 and transmitter 1204, at least one processor 1201, memory 1202 and the transmitter 1204 are connected by bus 1203 and complete mutual communication.
The bus 1203 can be ISA (Industry Standard Architecture, industry standard architecture) bus, PCI (Peripheral Component, external equipment interconnection) bus or EISA (Extended Industry Standard Architecture, extended industry-standard architecture) bus etc..The bus 1203 can be divided into address bus, data/address bus, controlling bus etc..For ease of representing, only represented in Figure 12 with a thick line, it is not intended that only one bus or a type of bus.Wherein:
Memory 1202 is used to perform the application code of the present invention program, and the application code for performing the present invention program is preserved in memory, and is controlled by processor 1201 to perform.
The memory can be read only memory ROM or can store the other kinds of static storage device of static information and instruction, random access memory ram or can storage information and instruction other kinds of dynamic memory, can also be EEPROM EEPROM, read-only optical disc CD-ROM or other optical disc storages, laser disc storage (including compression laser disc, laser disc, laser disc, Digital Versatile Disc, Blu-ray Disc etc.), magnetic disk storage medium or other magnetic storage apparatus, or can be used in carrying or store with instruction or data structure form desired program code and can by computer access any other medium, but not limited to this.These memories are connected by bus with processor.
Processor 1201 is probably a central processing unit 1201 (Central Processing Unit, referred to as CPU), either specific integrated circuit (Application Specific Integrated Circuit, referred to as ASIC), or it is arranged to implement one or more integrated circuits of the embodiment of the present invention.
Processor 1201, for determining the first Physical Uplink Control Channel PUCCH resource and the second PUCCH resource in n-th of time resource, wherein, the frequency resources width between the first PUCCH resource and the second PUCCH resource is less than or equal to the work band of the first equipment Width, the first PUCCH resource is used to carry m1The corresponding ascending control information of individual descending sub frame, the second PUCCH resource is used to carry m2The corresponding ascending control information of individual descending sub frame.
Transmitter 1204, m is sent for the first PUCCH resource using the determination of processor 1201 to the second equipment1The corresponding control information of individual descending sub frame, the second PUCCH resource determined using rm-cell sends m to the second equipment2The corresponding control information of individual descending sub frame.
Optionally, in the first application scenarios,
Processor 1201, specifically for determining the first PUCCH resource in the resource that n-th of time resource is included according to the first parameter, first equipment determines the second PUCCH resource according to the second parameter in the resource that n-th of time resource is included, first parameter belongs to the first parameter set, and the second parameter belongs to the second parameter set.
Further alternative, the parameter in parameter and the second parameter set in the first parameter set is PUCCH response parameters;
Or, the parameter in the first parameter set is that the parameter in resource block index or Physical Resource Block index, the second parameter set is resource block index or Physical Resource Block index;
Or, the parameter in the first parameter set is that the parameter in PUCCH indexes, the second parameter set is PUCCH indexes.
Optionally, the value of i-th of parameter is determined according to i-th of parameter value in the second parameter set and offset parameter values in the first parameter set;
Or, the value of i-th of parameter is determined according to i-th of parameter value in the first parameter set and offset parameter values in the second parameter set.
Optionally, processor 1201, it is additionally operable to determine the corresponding descending sub frame of the first parameter set and the corresponding descending sub frame of the second parameter set according to the first preset rules, PUCCH resource corresponding to the corresponding descending sub frame of first parameter set determines that the PUCCH resource corresponding to the corresponding descending sub frame of the second parameter set is determined according to the second parameter set according to the first parameter set.
Optionally, the first preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to the first equipment.
Or, optionally, in second of application scenarios,
Processor 1201, specifically for determining the first PUCCH resource in the resource that n-th of time resource is included according to the first rule, the first equipment determines the second PUCCH resource according to Second Rule in the resource that n-th of time resource is included.
Further alternative, the first rule is first function, and Second Rule is second function;
Or, the first rule is the first timing relationship, and Second Rule is the second timing relationship;
Or, the first rule is the first PUCCH format, and Second Rule is the second PUCCH format.
Optionally, processor 1201, it is additionally operable to determine the corresponding descending sub frame of the first regular corresponding descending sub frame and Second Rule according to the second preset rules, PUCCH resource corresponding to first regular corresponding descending sub frame determines that the PUCCH resource corresponding to the corresponding descending sub frame of Second Rule is determined according to Second Rule according to the first rule.
Optionally, the second preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to the first equipment.
Optionally, n-th of time resource includes n-th of subframe or n-th of time slot.It is preferred that, n-th of time resource is n-th of subframe, n=m1+ 6=m2+4。
First equipment provided in an embodiment of the present invention, the first PUCCH resource and the second PUCCH resource are determined in n-th of time resource, frequency resources width between first PUCCH resource and the second PUCCH resource is less than or equal to the bandwidth of operation of the first equipment, and m is sent to base station using the first PUCCH resource1The corresponding control information of individual descending sub frame, m is sent using the second PUCCH resource to base station2The corresponding control information of individual descending sub frame, so, feeds back the resource taken to the ACK/NACK of each descending sub frame and is defined, solve user equipment in the prior art and feed back the problem of shared resource conflicts to the ACK/NACK of descending sub frame.
Based on the corresponding embodiments of above-mentioned Fig. 5, another embodiment of the present invention provides a kind of second equipment, for performing the information transferring method described in the corresponding embodiments of above-mentioned Fig. 5, shown in reference picture 13, second equipment 130 includes at least one processor 1301, memory 1302, bus 1303 and receiver 1304, and at least one processor 1301, memory 1302 and the receiver 1304 are connected by bus 1303 and complete mutual communication.
The bus 1303 can be ISA (Industry Standard Architecture, industry mark Quasi- architecture) bus, PCI (Peripheral Component, external equipment interconnection) buses or EISA (Extended Industry Standard Architecture, extended industry-standard architecture) bus etc..The bus 1303 can be divided into address bus, data/address bus, controlling bus etc..For ease of representing, only represented in Figure 13 with a thick line, it is not intended that only one bus or a type of bus.Wherein:
Memory 1302 is used to perform the application code of the present invention program, and the application code for performing the present invention program is preserved in memory, and is controlled by processor 1301 to perform.
The memory can be read only memory ROM or can store the other kinds of static storage device of static information and instruction, random access memory ram or can storage information and instruction other kinds of dynamic memory, can also be EEPROM EEPROM, read-only optical disc CD-ROM or other optical disc storages, laser disc storage (including compression laser disc, laser disc, laser disc, Digital Versatile Disc, Blu-ray Disc etc.), magnetic disk storage medium or other magnetic storage apparatus, or can be used in carrying or store with instruction or data structure form desired program code and can by computer access any other medium, but not limited to this.These memories are connected by bus with processor.
Processor 1301 is probably a central processing unit 1301 (Central Processing Unit, referred to as CPU), either specific integrated circuit (Application Specific Integrated Circuit, referred to as ASIC), or it is arranged to implement one or more integrated circuits of the embodiment of the present invention.
Receiver 1304, the m for receiving the transmission of the first equipment in the first Physical Uplink Control Channel PUCCH resource in n-th of time resource1The corresponding control information of individual descending sub frame.
Receiver 1304, is additionally operable to receive the m of the first equipment transmission in the second PUCCH resource in n-th of time resource2The corresponding control information of individual descending sub frame, the frequency resources width between the first PUCCH resource and the second PUCCH resource is less than or equal to the bandwidth of operation of the first equipment.
The second equipment that the present embodiment is provided also includes transmitter 1305, and the transmitter 1305 is connected with each other by bus 1303 with processor 1301, memory 1302 and receiver 1304.
Optionally, in the first application scenarios,
First PUCCH resource is to be determined according to the first parameter in the resource that n-th of time resource is included, second PUCCH resource is to be determined according to the second parameter in the resource that n-th of time resource is included, first parameter belongs to the first parameter set, and the second parameter belongs to the second parameter set.
Further alternative, the parameter in parameter and the second parameter set in the first parameter set is PUCCH response parameters;
Or, the parameter in the first parameter set is that the parameter in resource block index or Physical Resource Block index, the second parameter set is resource block index or Physical Resource Block index;
Or, the parameter in the first parameter set is that the parameter in PUCCH indexes, the second parameter set is PUCCH indexes.
Optionally, the value of i-th of parameter is determined according to i-th of parameter value in the second parameter set and offset parameter values in the first parameter set;
Or, the value of i-th of parameter is determined according to i-th of parameter value in the first parameter set and offset parameter values in the second parameter set.
Optionally, processor 1301, for determining the corresponding descending sub frame of the first parameter set and the corresponding descending sub frame of the second parameter set and generating the first preset rules, PUCCH resource corresponding to the corresponding descending sub frame of first parameter set determines that the PUCCH resource corresponding to the corresponding descending sub frame of the second parameter set is determined according to the second parameter set according to the first parameter set.
Transmitter 1305, for sending the first preset rules that processor 1301 is generated to the first equipment.
Optionally, the first preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to the first equipment.
Or, optionally, in second of application scenarios,
First PUCCH resource is to determine that the second PUCCH resource is to be determined according to Second Rule in the resource that n-th of time resource is included in the resource that n-th of time resource is included according to the first rule.
Further alternative, the first rule is first function, and Second Rule is second function;
Or, the first rule is the first timing relationship, and Second Rule is the second timing relationship;
Or, the first rule is the first PUCCH format, and Second Rule is the 2nd PUCCH Form.
Processor 1301, for determining the corresponding descending sub frame of the first regular corresponding descending sub frame and Second Rule and generating the second preset rules, PUCCH resource corresponding to first regular corresponding descending sub frame determines that the PUCCH resource corresponding to the corresponding descending sub frame of Second Rule is determined according to Second Rule according to the first rule.
Transmitter 1305, for sending the second preset rules that processor 1301 is generated to the first equipment.
Optionally, the second preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to the first equipment.
Optionally, n-th of time resource includes n-th of subframe or n-th of time slot.It is preferred that, n-th of time resource is n-th of subframe, n=m1+ 6=m2+4。
Second equipment provided in an embodiment of the present invention, receives the m of the first equipment transmission in n-th of time resource in the first Physical Uplink Control Channel PUCCH resource1The corresponding control information of individual descending sub frame, the corresponding control information of the m2 descending sub frame of the first equipment transmission is received in the second PUCCH resource in n-th of time resource, frequency resources width between first PUCCH resource and the second PUCCH resource is less than or equal to the bandwidth of operation of the first equipment,, solve user equipment in the prior art and the problem of shared resource conflicts fed back to the ACK/NACK of descending sub frame.
Based on the corresponding embodiments of above-mentioned Fig. 6, the embodiment of the present invention provides another first equipment, for performing the information transferring method described in the corresponding embodiments of above-mentioned Fig. 6, shown in reference picture 14, first equipment 140 includes rm-cell 1401 and transmitting element 1402.
Rm-cell 1401, for generating the first control information, the first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the corresponding ascending control information of each descending sub frame is used to indicate a kind of state in x kind states, and the first control information is used to indicate a kind of state in U kind states, U=x2, x, U is the integer more than 0;
Transmitting element 1402, the first control information is sent to the second equipment for t-th of the PUCCH channel of the first control information and preset rules that are generated according to rm-cell 1401 in T Physical Uplink Control Channel PUCCH channel, preset rules include the first control The U kinds state of information and the corresponding relation of T PUCCH channel, T are the integer more than 0.
Optionally, each channel has a kind of state, the one-to-one relationship between U kinds state of the preset rules comprising the first control information and the T kind states of T PUCCH channel, T=U in T PUCCH channel;
Or, each channel has two states, the one-to-one relationship between U kinds state of the preset rules comprising the first control information and the 2T kind states of T PUCCH channel, 2T=U in T PUCCH channel.
It is preferred that, T PUCCH channel belongs to n-th of subframe, and n=m1+k1=m2+k2
First equipment provided in an embodiment of the present invention, generates the first control information, and the first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, first control information is sent to the second equipment according to t-th of the PUCCH channel of the first control information and preset rules in T PUCCH channel, the ACK/NACK feedbacks of two subframes are indicated using a PUCCH channel, when solving in the prior art by frequency-hopping transmissions ascending control information, it is impossible to the problem of carrying out ACK/NACK feedbacks to part descending sub frame.
Based on the corresponding embodiments of above-mentioned Fig. 9, the embodiment of the present invention provides another second equipment, for performing the information transferring method described in the corresponding embodiments of above-mentioned Fig. 9, shown in reference picture 15, second equipment 150 includes receiving unit 1501 and acquiring unit 1502.
Receiving unit 1501, the first control information that the first equipment is sent is received for t-th of PUCCH channel in T Physical Uplink Control Channel PUCCH channel, and the first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the corresponding ascending control information of each descending sub frame is used to indicate a kind of state in x kind states, and the first control information is used to indicate a kind of state in U kind states, U=x2, x, U is the integer more than 0;
Acquiring unit 1502, for obtaining the first control information that receiving unit 1501 is received, U kind state of the preset rules comprising the first control information and the corresponding relation of T PUCCH channel according to preset rules, T is the integer more than 0.
Optionally, each channel has a kind of state, one between U kinds state of the preset rules comprising the first control information and the T kind states of T PUCCH channel in T PUCCH channel One corresponding relation, T=U;
Or, each channel has two states, the one-to-one relationship between U kinds state of the preset rules comprising the first control information and the 2T kind states of T PUCCH channel, 2T=U in T PUCCH channel.
It is preferred that, T PUCCH channel belongs to n-th of subframe, and n=m1+k1=m2+k2
Second equipment provided in an embodiment of the present invention, t-th of PUCCH channel in T PUCCH channel receives the first control information that the first equipment is sent, and the first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the first control information is obtained according to preset rules, the ACK/NACK feedbacks of two subframes are indicated using a PUCCH channel, when solving in the prior art by frequency-hopping transmissions ascending control information, it is impossible to the problem of carrying out ACK/NACK feedbacks to part descending sub frame.
Based on the corresponding embodiments of above-mentioned Fig. 6, another embodiment of the present invention provides another first equipment, for performing the information transferring method described in the corresponding embodiments of above-mentioned Fig. 6, shown in reference picture 16, first equipment 160 includes at least one processor 1601, memory 1602, bus 1603 and transmitter 1604, and at least one processor 1601, memory 1602 and the transmitter 1604 are connected by bus 1603 and complete mutual communication.
The bus 1603 can be ISA (Industry Standard Architecture, industry standard architecture) bus, PCI (Peripheral Component, external equipment interconnection) bus or EISA (Extended Industry Standard Architecture, extended industry-standard architecture) bus etc..The bus 1603 can be divided into address bus, data/address bus, controlling bus etc..For ease of representing, only represented in Figure 16 with a thick line, it is not intended that only one bus or a type of bus.Wherein:
Memory 1602 is used to perform the application code of the present invention program, and the application code for performing the present invention program is preserved in memory, and is controlled by processor 1601 to perform.
The memory can be read only memory ROM or can store the other kinds of static storage device of static information and instruction, random access memory ram or can storage information and instruction other kinds of dynamic memory or EEPROM EEPROM, read-only optical disc CD-ROM or other optical disc storages, laser disc storage (including pressure Contracting laser disc, laser disc, laser disc, Digital Versatile Disc, Blu-ray Disc etc.), magnetic disk storage medium or other magnetic storage apparatus or can be used in carrying or store the desired program code with instruction or data structure form and can by computer access any other medium, but not limited to this.These memories are connected by bus with processor.
Processor 1601 is probably a central processing unit 1601 (Central Processing Unit, referred to as CPU), either specific integrated circuit (Application Specific Integrated Circuit, referred to as ASIC), or it is arranged to implement one or more integrated circuits of the embodiment of the present invention.
Processor 1601, for generating the first control information, the first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the corresponding ascending control information of each descending sub frame is used to indicate a kind of state in x kind states, and the first control information is used to indicate a kind of state in U kind states, U=x2, x, U is the integer more than 0;
Transmitter 1604, for t-th of the PUCCH channel of the first control information and preset rules that are generated according to processor 1601 in T Physical Uplink Control Channel PUCCH channel the first control information is sent to the second equipment, U kind state of the preset rules comprising the first control information and the corresponding relation of T PUCCH channel, T is the integer more than 0.
Optionally, each channel has a kind of state, the one-to-one relationship between U kinds state of the preset rules comprising the first control information and the T kind states of T PUCCH channel, T=U in T PUCCH channel;
Or, each channel has two states, the one-to-one relationship between U kinds state of the preset rules comprising the first control information and the 2T kind states of T PUCCH channel, 2T=U in T PUCCH channel.
It is preferred that, T PUCCH channel belongs to n-th of subframe, and n=m1+k1=m2+k2
First equipment provided in an embodiment of the present invention, generates the first control information, and the first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, first control information is sent to the second equipment according to t-th of the PUCCH channel of the first control information and preset rules in T PUCCH channel, the ACK/NACK feedbacks of two subframes are indicated using a PUCCH channel, are solved in the prior art During by frequency-hopping transmissions ascending control information, it is impossible to the problem of carrying out ACK/NACK feedbacks to part descending sub frame.
Based on the corresponding embodiments of above-mentioned Fig. 9, another embodiment of the present invention provides another second equipment, for performing the information transferring method described in the corresponding embodiments of above-mentioned Fig. 9, shown in reference picture 17, second equipment 170 includes at least one processor 1701, memory 1702, bus 1703 and receiver 1704, and at least one processor 1701, memory 1702 and the receiver 1704 are connected by bus 1703 and complete mutual communication.
The bus 1703 can be ISA (Industry Standard Architecture, industry standard architecture) bus, PCI (Peripheral Component, external equipment interconnection) bus or EISA (Extended Industry Standard Architecture, extended industry-standard architecture) bus etc..The bus 1703 can be divided into address bus, data/address bus, controlling bus etc..For ease of representing, only represented in Figure 17 with a thick line, it is not intended that only one bus or a type of bus.Wherein:
Memory 1702 is used to perform the application code of the present invention program, and the application code for performing the present invention program is preserved in memory, and is controlled by processor 1701 to perform.
The memory can be read only memory ROM or can store the other kinds of static storage device of static information and instruction, random access memory ram or can storage information and instruction other kinds of dynamic memory, can also be EEPROM EEPROM, read-only optical disc CD-ROM or other optical disc storages, laser disc storage (including compression laser disc, laser disc, laser disc, Digital Versatile Disc, Blu-ray Disc etc.), magnetic disk storage medium or other magnetic storage apparatus, or can be used in carrying or store with instruction or data structure form desired program code and can by computer access any other medium, but not limited to this.These memories are connected by bus with processor.
Processor 1701 is probably a central processing unit 1701 (Central Processing Unit, referred to as CPU), either specific integrated circuit (Application Specific Integrated Circuit, referred to as ASIC), or it is arranged to implement one or more integrated circuits of the embodiment of the present invention.
Receiver 1704, the first control information that the first equipment is sent, the first control information are received for t-th of PUCCH channel in T Physical Uplink Control Channel PUCCH channel Include m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the corresponding ascending control information of each descending sub frame is used to indicate a kind of state in x kind states, and the first control information is used to indicate a kind of state in U kind states, U=x2, x, U is the integer more than 0;
Processor 1701, for obtaining the first control information that receiver 1704 is received, U kind state of the preset rules comprising the first control information and the corresponding relation of T PUCCH channel according to preset rules, T is the integer more than 0.
Optionally, each channel has a kind of state, the one-to-one relationship between U kinds state of the preset rules comprising the first control information and the T kind states of T PUCCH channel, T=U in T PUCCH channel;
Or, each channel has two states, the one-to-one relationship between U kinds state of the preset rules comprising the first control information and the 2T kind states of T PUCCH channel, 2T=U in T PUCCH channel.
It is preferred that, T PUCCH channel belongs to n-th of subframe, and n=m1+k1=m2+k2
Second equipment provided in an embodiment of the present invention, t-th of PUCCH channel in T PUCCH channel receives the first control information that the first equipment is sent, and the first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the first control information is obtained according to preset rules, the ACK/NACK feedbacks of two subframes are indicated using a PUCCH channel, when solving in the prior art by frequency-hopping transmissions ascending control information, it is impossible to the problem of carrying out ACK/NACK feedbacks to part descending sub frame.
Based on the corresponding embodiments of above-mentioned Fig. 3 and Fig. 5, the embodiment of the present invention provides a kind of wireless communication system, for performing the information transferring method described in the corresponding embodiments of above-mentioned Fig. 3 and Fig. 5, shown in reference picture 18, the wireless communication system includes the first equipment 1801 and the second equipment 1802.
Wherein, the first equipment 1801 is the first equipment described in the corresponding embodiments of Figure 10, and the second equipment 1802 is the second equipment described in the corresponding embodiments of Figure 11.
Or, the first equipment 1801 is the first equipment described in the corresponding embodiments of Figure 12, and the second equipment 1802 is the second equipment described in the corresponding embodiments of Figure 13.
Wireless communication system provided in an embodiment of the present invention, first equipment determines the first PUCCH resource and the second PUCCH resource in n-th of time resource, frequency resources width between first PUCCH resource and the second PUCCH resource is less than or equal to the bandwidth of operation of the first equipment, and first the first PUCCH resource of equipment utilization sends m to base station1The corresponding control information of individual descending sub frame, m is sent using the second PUCCH resource to base station2The corresponding control information of individual descending sub frame, so, feeds back the resource taken to the ACK/NACK of each descending sub frame and is defined, solve user equipment in the prior art and feed back the problem of shared resource conflicts to the ACK/NACK of descending sub frame.
Based on the corresponding embodiments of above-mentioned Fig. 6 and Fig. 9, the embodiment of the present invention provides another wireless communication system, for performing the information transferring method described in the corresponding embodiments of above-mentioned Fig. 6 and Fig. 9, shown in reference picture 19, the wireless communication system includes the first equipment 1901 and the second equipment 1902.
Wherein, the first equipment 1901 is the first equipment described in the corresponding embodiments of Figure 14, and the second equipment 1902 is the second equipment described in the corresponding embodiments of Figure 15.
Or, the first equipment 1901 is the first equipment described in the corresponding embodiments of Figure 16, and the second equipment 1902 is the second equipment described in the corresponding embodiments of Figure 17.
Wireless communication system provided in an embodiment of the present invention, the first equipment generates the first control information, and the first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, first equipment sends the first control information according to t-th of PUCCH channel in T PUCCH channel of the first control information and preset rules to the second equipment, the ACK/NACK feedbacks of two subframes are indicated using a PUCCH channel, when solving in the prior art by frequency-hopping transmissions ascending control information, it is impossible to the problem of carrying out ACK/NACK feedbacks to part descending sub frame.
Through the above description of the embodiments, it is apparent to those skilled in the art that the present invention can be realized with hardware, or firmware is realized, or combinations thereof mode is realized.When implemented in software, above-mentioned functions can be stored in computer-readable medium or be transmitted as one or more instructions on computer-readable medium or code.Computer-readable medium includes computer-readable storage medium and communication media, and wherein communication media includes being easy to any medium that computer program is transmitted from a place to another place.Storage medium can be computer Any usable medium that can be accessed.As example but it is not limited to:Computer-readable medium can include RAM (Random Access Memory, random access memory), ROM (Read Only Memory, read-only memory), EEPROM (Electrically Erasable Programmable Read Only Memory, EEPROM), CD-ROM (Compact Disc Read Only Memory, that is read-only optical disc) or other optical disc storages, magnetic disk storage medium or other magnetic storage apparatus, or can be used in carrying or store with instruction or data structure form desired program code and can by computer access any other medium.In addition.Any connection can be suitably turn into computer-readable medium.For example, if software is to use coaxial cable, optical fiber cable, twisted-pair feeder, DSL (Digital Subscriber Line, digital subscriber line) or such as wireless technology of infrared ray, radio and microwave etc transmit from website, server or other remote sources, then the wireless technology of coaxial cable, optical fiber cable, twisted-pair feeder, DSL or such as infrared ray, wireless and microwave etc be included in belonging to medium it is fixing in.As used in the present invention, plate and dish includes CD (Compact Disc, compress laser disc), laser disc, laser disc, DVD dish (Digital Versatile Disc, digital universal light), floppy disk and Blu-ray Disc, the replicate data of the usual magnetic of which disk, and dish is then with laser come optical replicate data.Above combination above should also be as being included within the protection domain of computer-readable medium.
It is described above; only embodiment of the invention, but protection scope of the present invention is not limited thereto, any one skilled in the art the invention discloses technical scope in; change or replacement can be readily occurred in, should be all included within the scope of the present invention.Therefore, protection scope of the present invention described should be defined by scope of the claims.

Claims (62)

  1. A kind of first equipment, it is characterised in that including:
    Rm-cell, for determining the first Physical Uplink Control Channel PUCCH resource and the second PUCCH resource in n-th of time resource, wherein, frequency resources width between first PUCCH resource and second PUCCH resource is less than or equal to the bandwidth of operation of first equipment, and first PUCCH resource is used to carry m1The corresponding ascending control information of individual descending sub frame, second PUCCH resource is used to carry m2The corresponding ascending control information of individual descending sub frame;
    Transmitting element, the m is sent for first PUCCH resource using rm-cell determination to second equipment1The corresponding control information of individual descending sub frame, second PUCCH resource determined using the rm-cell sends the m to second equipment2The corresponding control information of individual descending sub frame.
  2. Equipment according to claim 1, it is characterised in that
    The rm-cell includes parameter set subelement, for determining first PUCCH resource in the resource that n-th of time resource is included according to the first parameter, first equipment determines second PUCCH resource according to the second parameter in the resource that n-th of time resource is included, first parameter belongs to the first parameter set, and second parameter belongs to the second parameter set.
  3. Equipment according to claim 2, it is characterised in that
    The parameter in parameter and second parameter set in first parameter set is PUCCH response parameters;
    Or, the parameter in first parameter set is that the parameter in resource block index or Physical Resource Block index, second parameter set is resource block index or Physical Resource Block index;
    Or, the parameter in first parameter set is PUCCH indexes, and the parameter in second parameter set is PUCCH indexes.
  4. Equipment according to Claims 2 or 3, it is characterised in that
    The value of i-th of parameter is determined according to i-th of parameter value in second parameter set and offset parameter values in first parameter set;
    Or, the value of i-th of parameter is according to first parameter set in second parameter set In i-th parameter value determine with offset parameter values.
  5. Equipment according to claim any one of 2-4, it is characterised in that
    The parameter set subelement, it is additionally operable to determine the corresponding descending sub frame of first parameter set and the corresponding descending sub frame of second parameter set according to the first preset rules, PUCCH resource corresponding to the corresponding descending sub frame of first parameter set determined according to first parameter set, and the PUCCH resource corresponding to the corresponding descending sub frame of second parameter set is determined according to second parameter set.
  6. Equipment according to claim 5, it is characterised in that
    First preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
  7. Equipment according to claim 1, it is characterised in that
    The rm-cell includes regular subelement, for determining first PUCCH resource in the resource that n-th of time resource is included according to the first rule, first equipment determines second PUCCH resource according to Second Rule in the resource that n-th of time resource is included.
  8. Equipment according to claim 7, it is characterised in that
    First rule is first function, and the Second Rule is second function;
    Or, first rule is the first timing relationship, and the Second Rule is the second timing relationship;
    Or, first rule is the first PUCCH format, and the Second Rule is the second PUCCH format.
  9. Equipment according to claim 7 or 8, it is characterised in that
    The regular subelement, it is additionally operable to determine the described first corresponding descending sub frame of regular corresponding descending sub frame and the Second Rule according to the second preset rules, PUCCH resource corresponding to the first regular corresponding descending sub frame determined according to the described first rule, and the PUCCH resource corresponding to the corresponding descending sub frame of the Second Rule is determined according to the Second Rule.
  10. Equipment according to claim 9, it is characterised in that
    Second preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
  11. Equipment according to claim 1-10, it is characterised in that
    N-th of time resource includes n-th of subframe or n-th of time slot.
  12. Equipment according to claim 1-11, it is characterised in that
    N-th of time resource is n-th of subframe, n=m1+ 6=m2+4。
  13. A kind of second equipment, it is characterised in that including:
    Receiving unit, the m for receiving the transmission of the first equipment in the first Physical Uplink Control Channel PUCCH resource in n-th of time resource1The corresponding control information of individual descending sub frame;
    The receiving unit, is additionally operable to receive the m that first equipment is sent in the second PUCCH resource in n-th of time resource2The corresponding control information of individual descending sub frame, the frequency resources width between first PUCCH resource and second PUCCH resource is less than or equal to the bandwidth of operation of first equipment.
  14. Equipment according to claim 13, it is characterised in that
    First PUCCH resource is to be determined according to the first parameter in the resource that n-th of time resource is included, second PUCCH resource is to be determined according to the second parameter in the resource that n-th of time resource is included, first parameter belongs to the first parameter set, and second parameter belongs to the second parameter set.
  15. Equipment according to claim 14, it is characterised in that
    The parameter in parameter and second parameter set in first parameter set is PUCCH response parameters;
    Or, the parameter in first parameter set is that the parameter in resource block index or Physical Resource Block index, second parameter set is resource block index or Physical Resource Block index;
    Or, the parameter in first parameter set is PUCCH indexes, and the parameter in second parameter set is PUCCH indexes.
  16. Equipment according to claims 14 or 15, it is characterised in that
    The value of i-th of parameter is determined according to i-th of parameter value in second parameter set and offset parameter values in first parameter set;
    Or, the value of i-th of parameter is determined according to i-th of parameter value in first parameter set and offset parameter values in second parameter set.
  17. Equipment according to claim 14-16, it is characterised in that second equipment also includes Parameter Set units and the first transmitting element;
    The Parameter Set units, for determining the corresponding descending sub frame of first parameter set and the corresponding descending sub frame of second parameter set and generating the first preset rules, PUCCH resource corresponding to the corresponding descending sub frame of first parameter set determined according to first parameter set, and the PUCCH resource corresponding to the corresponding descending sub frame of second parameter set is determined according to second parameter set;
    First transmitting element, first preset rules for sending the Parameter Set units generation to first equipment.
  18. Equipment according to claim 17, it is characterised in that
    First preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
  19. Equipment according to claim 13, it is characterised in that
    First PUCCH resource is to determine that second PUCCH resource is to be determined according to Second Rule in the resource that n-th of time resource is included in the resource that n-th of time resource is included according to the first rule.
  20. Equipment according to claim 19, it is characterised in that
    First rule is first function, and the Second Rule is second function;
    Or, first rule is the first timing relationship, and the Second Rule is the second timing relationship;
    Or, first rule is the first PUCCH format, and the Second Rule is the second PUCCH format.
  21. Equipment according to claim 19 or 20, it is characterised in that second equipment also includes rules unit and the second transmitting element;
    The rules unit, for determining the described first corresponding descending sub frame of regular corresponding descending sub frame and the Second Rule and generating the second preset rules, PUCCH resource corresponding to the first regular corresponding descending sub frame determined according to the described first rule, and the PUCCH resource corresponding to the corresponding descending sub frame of the Second Rule is determined according to the Second Rule;
    Second transmitting element, is generated for sending the rules unit to first equipment Second preset rules.
  22. Equipment according to claim 21, it is characterised in that
    Second preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
  23. Equipment according to claim 13-22, it is characterised in that
    N-th of time resource includes n-th of subframe or n-th of time slot.
  24. Equipment according to claim 13-23, it is characterised in that
    N-th of time resource is n-th of subframe, n=m1+ 6=m2+4。
  25. A kind of first equipment, it is characterised in that including:
    Rm-cell, for generating the first control information, first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the corresponding ascending control information of each descending sub frame is used to indicate a kind of state in x kind states, and first control information is used to indicate a kind of state in U kind states, U=x2, x, U is the integer more than 0;
    Transmitting element, for t-th of the PUCCH channel of first control information and preset rules that are generated according to the rm-cell in T Physical Uplink Control Channel PUCCH channel first control information is sent to the second equipment, U kind state of the preset rules comprising first control information and the corresponding relation of the T PUCCH channels, T is the integer more than 0.
  26. Equipment according to claim 25, it is characterised in that
    Each channel has a kind of state, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the T kind states of the T PUCCH channels, T=U in the T PUCCH channels;
    Or, each channel has two states, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the 2T kind states of the T PUCCH channels, 2T=U in the T PUCCH channels.
  27. Equipment according to claim 26, it is characterised in that
    The T PUCCH channels belong to n-th of subframe, and n=m1+k1=m2+k2
  28. A kind of second equipment, it is characterised in that including:
    Receiving unit, the first control information that the first equipment is sent is received for t-th of PUCCH channel in T Physical Uplink Control Channel PUCCH channel, and first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the corresponding ascending control information of each descending sub frame is used to indicate a kind of state in x kind states, and first control information is used to indicate a kind of state in U kind states, U=x2, x, U is the integer more than 0;
    Acquiring unit, for obtaining first control information that the receiving unit is received, U kind state of the preset rules comprising first control information and the corresponding relation of the T PUCCH channels according to preset rules, T is the integer more than 0.
  29. Equipment according to claim 28, it is characterised in that
    Each channel has a kind of state, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the T kind states of the T PUCCH channels, T=U in the T PUCCH channels;
    Or, each channel has two states, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the 2T kind states of the T PUCCH channels, 2T=U in the T PUCCH channels.
  30. Equipment according to claim 29, it is characterised in that
    The T PUCCH channels belong to n-th of subframe, and n=m1+k1=m2+k2
  31. A kind of information transferring method, it is characterised in that including:
    First equipment determines the first Physical Uplink Control Channel PUCCH resource and the second PUCCH resource in n-th of time resource, wherein, frequency resources width between first PUCCH resource and second PUCCH resource is less than or equal to the bandwidth of operation of first equipment, and first PUCCH resource is used to carry m1The corresponding ascending control information of individual descending sub frame, second PUCCH resource is used to carry m2The corresponding ascending control information of individual descending sub frame;
    First PUCCH resource described in first equipment utilization sends the m to second equipment1The corresponding control information of individual descending sub frame, the m is sent using second PUCCH resource to second equipment2The corresponding control information of individual descending sub frame.
  32. Method according to claim 31, it is characterised in that first equipment The first Physical Uplink Control Channel PUCCH resource and the second PUCCH resource are determined in the resource that n-th of time resource is included, including:
    First equipment determines first PUCCH resource according to the first parameter in the resource that n-th of time resource is included, first equipment determines second PUCCH resource according to the second parameter in the resource that n-th of time resource is included, first parameter belongs to the first parameter set, and second parameter belongs to the second parameter set.
  33. Method according to claim 32, it is characterised in that
    The parameter in parameter and second parameter set in first parameter set is PUCCH response parameters;
    Or, the parameter in first parameter set is that the parameter in resource block index or Physical Resource Block index, second parameter set is resource block index or Physical Resource Block index;
    Or, the parameter in first parameter set is PUCCH indexes, and the parameter in second parameter set is PUCCH indexes.
  34. Method according to claim 32 or 33, it is characterised in that
    The value of i-th of parameter is determined according to i-th of parameter value in second parameter set and offset parameter values in first parameter set;
    Or, the value of i-th of parameter is determined according to i-th of parameter value in first parameter set and offset parameter values in second parameter set.
  35. Method according to claim any one of 32-34, it is characterised in that methods described also includes:
    First equipment determines the corresponding descending sub frame of first parameter set and the corresponding descending sub frame of second parameter set according to the first preset rules, PUCCH resource corresponding to the corresponding descending sub frame of first parameter set determined according to first parameter set, and the PUCCH resource corresponding to the corresponding descending sub frame of second parameter set is determined according to second parameter set.
  36. Method according to claim 35, it is characterised in that
    First preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
  37. Method according to claim 31, it is characterised in that first equipment The first Physical Uplink Control Channel PUCCH resource and the second PUCCH resource are determined in n-th of time resource, including:
    First equipment determines first PUCCH resource according to the first rule in the resource that n-th of time resource is included, and first equipment determines second PUCCH resource according to Second Rule in the resource that n-th of time resource is included.
  38. Method according to claim 37, it is characterised in that
    First rule is first function, and the Second Rule is second function;
    Or, first rule is the first timing relationship, and the Second Rule is the second timing relationship;
    Or, first rule is the first PUCCH format, and the Second Rule is the second PUCCH format.
  39. Method according to claim 37 or 38, it is characterised in that methods described also includes:
    First equipment determines the described first corresponding descending sub frame of regular corresponding descending sub frame and the Second Rule according to the second preset rules, PUCCH resource corresponding to the first regular corresponding descending sub frame determined according to the described first rule, and the PUCCH resource corresponding to the corresponding descending sub frame of the Second Rule is determined according to the Second Rule.
  40. Method according to claim 39, it is characterised in that
    Second preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
  41. Method according to claim 31-40, it is characterised in that
    N-th of time resource includes n-th of subframe or n-th of time slot.
  42. Method according to claim 31-41, it is characterised in that
    N-th of time resource is n-th of subframe, n=m1+ 6=m2+4。
  43. A kind of information transferring method, it is characterised in that including:
    Second equipment receives the m of the first equipment transmission in n-th of time resource in the first Physical Uplink Control Channel PUCCH resource1The corresponding control information of individual descending sub frame;
    Second equipment receives the m that first equipment is sent in n-th of time resource in the second PUCCH resource2The corresponding control information of individual descending sub frame, described first Frequency resources width between PUCCH resource and second PUCCH resource is less than or equal to the bandwidth of operation of first equipment.
  44. Method according to claim 43, it is characterised in that
    First PUCCH resource is to be determined according to the first parameter in the resource that n-th of time resource is included, second PUCCH resource is to be determined according to the second parameter in the resource that n-th of time resource is included, first parameter belongs to the first parameter set, and second parameter belongs to the second parameter set.
  45. Method according to claim 44, it is characterised in that
    The parameter in parameter and second parameter set in first parameter set is PUCCH response parameters;
    Or, the parameter in first parameter set is that the parameter in resource block index or Physical Resource Block index, second parameter set is resource block index or Physical Resource Block index;
    Or, the parameter in first parameter set is PUCCH indexes, and the parameter in second parameter set is PUCCH indexes.
  46. Method according to claim 44 or 45, it is characterised in that
    The value of i-th of parameter is determined according to i-th of parameter value in second parameter set and offset parameter values in first parameter set;
    Or, the value of i-th of parameter is determined according to i-th of parameter value in first parameter set and offset parameter values in second parameter set.
  47. Method according to claim 44-46, it is characterised in that methods described also includes:
    Second equipment determines the corresponding descending sub frame of first parameter set and the corresponding descending sub frame of second parameter set, generate and send the first preset rules to first equipment, PUCCH resource corresponding to the corresponding descending sub frame of first parameter set determined according to first parameter set, and the PUCCH resource corresponding to the corresponding descending sub frame of second parameter set is determined according to second parameter set.
  48. Method according to claim 47, it is characterised in that
    First preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
  49. Method according to claim 43, it is characterised in that
    First PUCCH resource is to determine that second PUCCH resource is to be determined according to Second Rule in the resource that n-th of time resource is included in the resource that n-th of time resource is included according to the first rule.
  50. Method according to claim 49, it is characterised in that
    First rule is first function, and the Second Rule is second function;
    Or, first rule is the first timing relationship, and the Second Rule is the second timing relationship;
    Or, first rule is the first PUCCH format, and the Second Rule is the second PUCCH format.
  51. Method according to claim 49 or 50, it is characterised in that methods described also includes:
    Second equipment determines the described first corresponding descending sub frame of regular corresponding descending sub frame and the Second Rule, generate and send the second preset rules to first equipment, PUCCH resource corresponding to the first regular corresponding descending sub frame determined according to the described first rule, and the PUCCH resource corresponding to the corresponding descending sub frame of the Second Rule is determined according to the Second Rule.
  52. Method according to claim 51, it is characterised in that
    Second preset rules are carried and sent in one or more of physical layer signaling, Medium Access Layer signaling, radio resource control signaling signaling to first equipment.
  53. Method according to claim 43-52, it is characterised in that
    N-th of time resource includes n-th of subframe or n-th of time slot.
  54. Method according to claim 43-53, it is characterised in that
    N-th of time resource is n-th of subframe, n=m1+ 6=m2+4。
  55. A kind of information transferring method, it is characterised in that including:
    First equipment generates the first control information, and first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the corresponding ascending control information of each descending sub frame is used to indicate a kind of state in x kind states, and first control information is used to indicate a kind of state in U kind states, U=x2, x, U is the integer more than 0;
    First equipment sends first control information according to t-th of PUCCH channel in T Physical Uplink Control Channel PUCCH channel of first control information and preset rules to the second equipment, U kind state of the preset rules comprising first control information and the corresponding relation of the T PUCCH channels, T is the integer more than 0.
  56. Method according to claim 55, it is characterised in that
    Each channel has a kind of state, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the T kind states of the T PUCCH channels, T=U in the T PUCCH channels;
    Or, each channel has two states, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the 2T kind states of the T PUCCH channels, 2T=U in the T PUCCH channels.
  57. Method according to claim 56, it is characterised in that
    The T PUCCH channels belong to n-th of subframe, and n=m1+k1=m2+k2
  58. A kind of information transferring method, it is characterised in that including:
    T-th PUCCH channel of second equipment in T Physical Uplink Control Channel PUCCH channel receives the first control information that the first equipment is sent, and first control information includes m1The corresponding ascending control information of individual descending sub frame and m2The corresponding ascending control information of individual descending sub frame, the corresponding ascending control information of each descending sub frame is used to indicate a kind of state in x kind states, and first control information is used to indicate a kind of state in U kind states, U=x2, x, U is the integer more than 0;
    Second equipment obtains first control information, U kind state of the preset rules comprising first control information and the corresponding relation of the T PUCCH channels according to preset rules, and T is the integer more than 0.
  59. Method according to claim 58, it is characterised in that
    Each channel has a kind of state, the one-to-one relationship between U kinds state of the preset rules comprising first control information and the T kind states of the T PUCCH channels, T=U in the T PUCCH channels;
    Or, each channel has two states in the T PUCCH channels, described default One-to-one relationship between U kinds state of the rule comprising first control information and the 2T kind states of the T PUCCH channels, 2T=U.
  60. Method according to claim 59, it is characterised in that
    The T PUCCH channels belong to n-th of subframe, and n=m1+k1=m2+k2
  61. A kind of wireless communication system, it is characterised in that including:First equipment and the second equipment;
    First equipment is the first equipment described in claim any one of 1-12, and second equipment is the second equipment described in claim any one of 13-24.
  62. A kind of wireless communication system, it is characterised in that including:First equipment and the second equipment;
    First equipment is the first equipment described in claim any one of 25-27, and second equipment is the second equipment described in claim any one of 28-30.
CN201580044443.3A 2015-04-10 2015-04-10 Information transmission method, equipment and system Active CN106576023B (en)

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