WO2014059606A1 - 传输调度请求的方法和装置、用户设备以及基站 - Google Patents

传输调度请求的方法和装置、用户设备以及基站 Download PDF

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Publication number
WO2014059606A1
WO2014059606A1 PCT/CN2012/083040 CN2012083040W WO2014059606A1 WO 2014059606 A1 WO2014059606 A1 WO 2014059606A1 CN 2012083040 W CN2012083040 W CN 2012083040W WO 2014059606 A1 WO2014059606 A1 WO 2014059606A1
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WO
WIPO (PCT)
Prior art keywords
scheduling request
request information
base station
control channel
uplink control
Prior art date
Application number
PCT/CN2012/083040
Other languages
English (en)
French (fr)
Inventor
成艳
马莎
薛丽霞
Original Assignee
华为技术有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 华为技术有限公司 filed Critical 华为技术有限公司
Priority to EP12886776.9A priority Critical patent/EP2903380A4/en
Priority to CN201280007716.3A priority patent/CN103891384B/zh
Priority to PCT/CN2012/083040 priority patent/WO2014059606A1/zh
Publication of WO2014059606A1 publication Critical patent/WO2014059606A1/zh
Priority to US14/687,250 priority patent/US20150223264A1/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/20Control channels or signalling for resource management
    • H04W72/21Control channels or signalling for resource management in the uplink direction of a wireless link, i.e. towards the network
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/20Control channels or signalling for resource management
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/02Terminal devices
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/08Access point devices

Definitions

  • the present invention relates to the field of communications technologies, and in particular, to a method and apparatus for transmitting a scheduling request, a user equipment, and a base station. Background technique
  • LTE-A Long Term Evolution-Advanced
  • LTE-A Long Term Evolution-Advanced
  • CA Carrier Aggregation
  • bandwidth extension bandwidth extension
  • UE User Equipment
  • the LTE-A user equipment can simultaneously access multiple component carriers for data transmission according to its capabilities and service requirements.
  • the existing carrier aggregation systems are all aggregated by carriers under the same base station (eNB, Evolved NodeB), or carrier aggregation under macro (Macro) cells and micro (Pico) cells with ideal backhaul, such as macro cells.
  • the micro cell is connected through the optical fiber (the micro cell can also be a radio frequency head), so that joint scheduling can be adopted between multiple carriers, that is, when the eNB schedules one carrier in the aggregated carrier, it also knows the scheduling situation on the other carrier. .
  • the base stations are non-ideal backhaul, so data cannot be transmitted between the base stations in real time.
  • the macro cell deployed at the frequency fl mainly provides system information, radio link monitoring and mobility management to ensure continuity of services; and at the same time, to ensure continuity of voice service services. Sex, half-persistent scheduling services are usually also served by macro cells.
  • the plurality of micro cells deployed in the coverage of the macro cell at the frequency f2 mainly provide transmission of high data rate services, and the macro cells and the micro cells and the micro cells are non-understood backhaul.
  • the scheduling request (SR, Scheduling Request) information is used by the UE to request to send an uplink to the base station.
  • the resources of the data In the existing CA system, the SR information is only transmitted on the uplink primary carrier.
  • the transmission of the SR information still uses the existing mechanism, when the macro cell receives the SR information and learns that the UE needs to transmit the uplink data, it needs to notify the Pico to perform the uplink data for the UE through the X2 interface.
  • Scheduling Since the data cannot be transmitted in real time between the base stations, the time for the uplink data to be serviced is delayed, thereby reducing the user's feelings. Summary of the invention
  • the present invention provides a method and apparatus for transmitting a scheduling request, a user equipment, and a base station, and is directed to solving the problem of how to transmit a scheduling request in a multi-stream aggregation (MSA) scenario.
  • MSA multi-stream aggregation
  • a method for transmitting a scheduling request includes: the user equipment determines, according to the received scheduling request configuration, a physical uplink control channel resource used for transmitting scheduling request information, where the scheduling request information is used by the The user equipment requests an uplink resource from the base station; and the user equipment transmits the scheduling request information on the determined physical uplink control channel resource.
  • the determining, by the user equipment, the physical uplink control channel resource used for transmitting the scheduling request information, according to the received scheduling request configuration includes: when the scheduling request is configured And including a plurality of parameters indicating a physical uplink control channel, where the user equipment determines a physical uplink control channel for transmitting scheduling request information according to the parameter, where the multiple parameters indicating the physical uplink control channel respectively indicate scheduling requests corresponding to different base stations.
  • the information that the user equipment transmits the scheduling request information on the determined physical uplink control channel resource includes: the user equipment transmitting, on the physical uplink control channel, scheduling request information for requesting an uplink resource from the corresponding base station.
  • the plurality of parameters indicating the physical uplink control channel include a parameter of the first physical uplink control channel and a second physical uplink control channel
  • the parameter of the first physical uplink control channel is used to indicate a physical uplink control channel for transmitting scheduling odd information of the uplink resource to the first base station
  • the parameter of the second physical uplink control channel is used for indicating the transmission.
  • a physical uplink control channel for requesting uplink resource scheduling request information from the second base station; and the user equipment transmitting the scheduling request information for requesting the uplink resource to the corresponding base station on the physical uplink control channel, where the user equipment is in the
  • the scheduling request information for requesting the uplink resource from the first base station is transmitted on the physical uplink control channel indicated by the parameter of the physical uplink control channel, and the parameter indication of the second physical uplink control channel is The scheduling request information for requesting the uplink resource from the second base station is transmitted on the physical uplink control channel.
  • the determining, by the user equipment, the physical uplink control channel resource used for transmitting the scheduling request information, according to the received scheduling request configuration includes:
  • the scheduling request configuration includes a parameter indicating a transmission period and a subframe offset of the scheduling request information, and the user equipment determines, according to the parameter indicating the transmission period and the subframe offset of the scheduling request information, the scheduling request information for requesting the uplink resource from the different base station.
  • the user equipment in the determined subframe, transmitting the scheduling request information for requesting the uplink resource to the corresponding base station, where the user equipment includes: Transmitting scheduling request information for requesting an uplink resource to the first base station, where the user equipment transmits a request to the second base station in a subframe on an odd position in the subframe in a subframe on an even position in the subframe Scheduling request information of uplink resources.
  • the determining, by the user equipment, the physical uplink control channel resource used for transmitting the scheduling request information, according to the received scheduling request configuration includes:
  • the scheduling request configuration includes a plurality of scheduling request sub-configurations, where each of the scheduling request sub-configurations includes a parameter indicating a transmission period and a subframe offset of scheduling request information of an uplink resource of the corresponding base station; Determining a transmission period of the scheduling request information of the uplink resource of the corresponding base station and a parameter of the subframe offset, determining a subframe for scheduling request information of the uplink resource of the base station corresponding to the transmission request; the user equipment is determined
  • the transmitting the scheduling request information on the physical uplink control channel resource includes: the user equipment transmitting scheduling request information of an uplink resource of the base station corresponding to the request in the subframe.
  • the determining, by the user equipment, the physical uplink control channel resource for transmitting the scheduling request information, according to the received scheduling request configuration further includes: The user equipment further determines a physical uplink control channel for transmitting scheduling request information according to the parameter indicating the physical uplink control channel, where the user equipment further includes a parameter indicating a physical uplink control channel, where the user equipment is The transmitting the scheduling request information on the determined physical uplink control channel resource includes: the user equipment transmitting scheduling request information of an uplink resource of the base station corresponding to the request on the subframe and the physical uplink control channel.
  • the method before the user equipment transmits the scheduling request information on the determined physical uplink control channel resource, the method further includes: The user equipment determines scheduling request information to be transmitted; the user equipment sets information bits for the scheduling request information to be transmitted, and the information bits are used to indicate uplink resources of the base station corresponding to the scheduling request information request.
  • the scheduling request information to be transmitted if the scheduling request information to be transmitted is used to request an uplink resource from the first base station, the scheduling request information to be transmitted corresponds to The information bit is 0; if the scheduling request information to be transmitted is used to request the uplink resource from the second base station, the information bit corresponding to the scheduling request information to be transmitted is 1; or, if the scheduling request information to be transmitted is used to If the first base station requests the uplink resource, the information bit corresponding to the scheduling request information to be transmitted is 10; if the scheduling request information to be transmitted is used to request the uplink resource from the second base station, the scheduling request information to be transmitted corresponds to The information bit is 01; if the scheduling request information to be transmitted is used to request the uplink resource to the first base station and the second base station at the same time, the information bit corresponding to the scheduling request information to be transmitted is 11.
  • the determining, by the user equipment, the scheduling request information to be transmitted further includes: if the scheduling request information to be transmitted includes multiple The base station requests the scheduling request information of the uplink resource, and the user equipment determines that the scheduling request information is the scheduling request information with the highest priority according to the preset priority.
  • the preset priority is a carrier priority, a priority of a high layer notified by semi-static signaling, or a base station priority .
  • the physical uplink control channel resource is a physical uplink control channel resource on an uplink carrier corresponding to the macro base station.
  • a method for transmitting a transmission scheduling request includes: the base station configuring, according to the scheduling request, a physical uplink control channel resource that determines a user equipment transmission scheduling request information; the base station detecting the physical uplink control channel resource The scheduling request information.
  • the scheduling request configuration includes multiple parameters indicating a physical uplink control channel
  • each of the parameters is used to indicate that the user equipment transmits a request to the corresponding base station.
  • a physical uplink control channel for scheduling request information of the uplink resource the base station configuring, according to the scheduling request, a physical uplink control channel for determining user equipment transmission scheduling request information
  • the resource includes: the base station determining, according to the parameter indicating the physical uplink control channel, a physical uplink control channel that is requested by the user equipment to request uplink resource scheduling request information from different base stations; and the base station detecting the physical uplink control channel resource
  • the scheduling request information includes: the base station detecting the scheduling request information on the physical uplink control channel.
  • the base station is configured according to the scheduling request
  • Determining the physical uplink control channel resource of the user equipment transmission scheduling request information includes: determining, by the base station, a subframe of the user equipment transmission scheduling request information according to the parameter of the transmission period and the subframe offset of the indication scheduling request information;
  • the detecting the scheduling request information on the physical uplink control channel resource includes: the base station detecting the scheduling request information on the subframe.
  • the base station determines, according to the parameter of the transmission period and the subframe offset of the indication scheduling request information, the user equipment transmission scheduling request information
  • the frame includes: the base station receiving scheduling request information on a subframe in an odd or even position in the subframe.
  • the scheduling request configuration includes multiple scheduling request sub-configurations, where each scheduling request sub-configuration is configured to configure a user equipment
  • the detecting, by the base station, the scheduling request information on the physical uplink control channel resource includes: the physicality indicated by the base station in the scheduling request sub-configuration
  • the scheduling request information is detected on an uplink control channel resource.
  • the detecting, by the base station, the scheduling request information on the physical uplink control channel resource further includes: the base station parsing the scheduling An information bit of the request information, where the information bit is used to indicate an uplink resource of the base station corresponding to the scheduling request information request; and the base station determines, according to the information bit, whether the i-peripheral request information is transmitted by the user equipment to the user equipment Scheduling request information.
  • the scheduling request information is used to request an uplink resource from the first base station;
  • the information bit of the request information is 1, and the scheduling request information is used for the second base.
  • the station requests the uplink resource; or if the parsed information bit is 10, the scheduling request information is used to request the uplink resource from the first base station; if the parsed information bit is 01, the scheduling request information is used to request the second base station.
  • the base station determines, according to the scheduling request, physical uplink control that determines user equipment transmission scheduling request information.
  • the method further includes: sending, by the base station, a scheduling request configuration to the user equipment or the micro base station by using the high layer signaling.
  • the base station determines, according to the scheduling request, physical uplink control that determines user equipment transmission scheduling request information. Before the channel resource, the method further includes: the base station receiving a scheduling request configuration sent by the macro base station.
  • an apparatus for transmitting a scheduling request including: a receiving unit, configured to receive a scheduling request configuration, where a first determining unit is configured to determine, according to the scheduling request configuration received by the receiving unit, a physical uplink control channel resource for transmitting scheduling request information, where the scheduling request information is used by the user equipment to request an uplink resource from the base station, and the transmission unit is configured to transmit the scheduling request information on the determined physical uplink control channel resource.
  • the first determining unit is specifically configured to: when the scheduling request configuration includes multiple parameters indicating a physical uplink control channel, determine, according to the parameter, the transmission a physical uplink control channel for scheduling request information, where the plurality of parameters indicating the physical uplink control channel respectively indicate scheduling request information corresponding to different base stations; the transmitting unit is specifically configured to: transmit to the physical uplink control channel The base station requests scheduling request information of the uplink resource.
  • the transmitting unit is further configured to: when the multiple parameters indicating the physical uplink control channel include the first physical uplink control channel And the parameter of the second physical uplink control channel, transmitting, on the physical uplink control channel indicated by the parameter of the first physical uplink control channel, scheduling request information for requesting uplink resources to the first base station, where the second physical uplink control is performed
  • the scheduling request information for requesting the uplink resource from the second base station is transmitted on the physical uplink control channel indicated by the parameter of the channel, where the parameter of the first physical uplink control channel is used to indicate that the transmission requests the uplink resource scheduling request information from the first base station.
  • a physical uplink control channel, where parameters of the second physical uplink control channel are used to indicate transmission A physical uplink control channel requesting scheduling request information of an uplink resource from the second base station.
  • the first determining unit is specifically configured to: when the scheduling request configuration includes a transmission period and a subframe offset indicating scheduling request information And determining, according to the parameter indicating the transmission period and the subframe offset of the scheduling request information, a subframe for transmitting scheduling request information for requesting uplink resources to different base stations; the transmitting unit is specifically configured to: transmit on the determined subframe The scheduling request information of the uplink resource is requested from the corresponding base station.
  • the transmitting unit is further configured to: request to transmit to the first base station on a subframe in an even position in the subframe
  • the scheduling request information of the uplink resource transmits scheduling request information for requesting the uplink resource to the second base station in the subframe at the odd position in the subframe.
  • the first determining unit is specifically configured to: when the scheduling request configuration includes multiple scheduling request sub-configurations, according to the indication Determining a transmission period of the scheduling request information of the uplink resource of the corresponding base station and a parameter of the subframe offset, determining a subframe for scheduling request information of the uplink resource of the base station corresponding to the transmission request, where each of the scheduling odd sub-configurations And a parameter for indicating a transmission period and a subframe offset of the scheduling request information of the uplink resource of the base station that is requested to be requested; the transmitting unit is specifically configured to: transmit scheduling request information of the uplink resource of the base station corresponding to the request in the subframe.
  • the first determining unit is further configured to: when each of the scheduling request sub-configurations further includes a parameter indicating a physical uplink control channel Determining, according to the parameter indicating the physical uplink control channel, a physical uplink control channel for transmitting scheduling request information; the transmitting unit is further configured to: transmit, on the subframe and the physical uplink control channel, an uplink of the base station corresponding to the request Resource scheduling request information.
  • the first determining unit is further configured to: transmit, by the transmitting unit, the determined physical uplink control channel resource Before the scheduling request information, the scheduling request information to be transmitted is determined, and the information bit is set for the scheduling request information to be transmitted, where the information bit is used to indicate the uplink resource of the base station corresponding to the scheduling request information request.
  • the scheduling request information to be transmitted if the scheduling request information to be transmitted is used to request an uplink resource from the first base station, the scheduling request information to be transmitted corresponds to The information bit is 0; if the scheduling request information to be transmitted is used for the second base station If the uplink resource is requested, the information bit corresponding to the scheduling request information to be transmitted is 1; or, if the scheduling request information to be transmitted is used to request the uplink resource from the first base station, the scheduling request information to be transmitted corresponds to The information bit is 10; if the scheduling request information to be transmitted is used to request the uplink resource from the second base station, the information bit corresponding to the scheduling request information to be transmitted is 01; if the scheduling request information to be transmitted is used to simultaneously When the base station and the second base station request the uplink resource, the information bit corresponding to the scheduling request information to be transmitted is 11.
  • the first determining unit is further configured to: if the scheduling request information to be transmitted includes multiple used to request uplink resources to different base stations
  • the scheduling request information is determined according to the preset priority, the scheduling request information is the scheduling request information with the highest priority, wherein the preset priority is the priority of the carrier, and the upper layer is preferentially notified by the semi-static signaling. Level, or base station priority.
  • the physical uplink control channel resource is a physical uplink control channel resource on an uplink carrier corresponding to the macro base station.
  • a transmission apparatus for transmitting a scheduling request including: a second determining unit, configured to configure, according to a scheduling request, a physical uplink control channel resource that determines a user equipment transmission scheduling request information; and a detecting unit, configured to The scheduling request information is detected on a physical uplink control channel resource.
  • the scheduling request configuration includes multiple parameters indicating a physical uplink control channel
  • each of the parameters is used to indicate that the user equipment transmits a request to the corresponding base station.
  • a physical uplink control channel of the scheduling request information of the uplink resource the second determining unit is specifically configured to: determine, according to the parameter indicating the physical uplink control channel, a physical uplink of the scheduling request information that the user equipment requests to request uplink resources from different base stations
  • the detecting unit is configured to: detect the scheduling request information on the physical uplink control channel.
  • the second determining unit further And determining, by using the parameter of the transmission period and the subframe offset of the indication scheduling request information, a subframe of the user equipment transmission scheduling request information; the detecting unit is further configured to: detect the scheduling request information on the subframe .
  • the second determining unit is further configured to: connect to a subframe on an odd or even position in the subframe Receive scheduling request information.
  • the scheduling request configuration includes multiple scheduling request sub-configurations, where each scheduling request sub-configuration is configured to configure a user equipment And requesting the scheduling request information of the uplink resource of the corresponding base station;
  • the second determining unit is specifically configured to: determine, according to the multiple scheduling request sub-configuration, a physical uplink control channel that is sent by the user equipment to request scheduling information of the uplink resource by itself
  • the detecting unit is specifically configured to: detect the scheduling request information on a physical uplink control channel resource indicated by the scheduling request sub-configuration.
  • the detecting unit is further configured to: parse information bits of the scheduling request information, where the information bits are used to indicate the And scheduling the request information to request the uplink resource of the corresponding base station; determining, according to the information bit, whether the scheduling request information is scheduling request information transmitted by the user equipment to itself.
  • the scheduling request information is used to request an uplink resource from the first base station; If the information bit of the request information is 1, the scheduling request information is used to request an uplink resource from the second base station; or if the parsed information bit is 10, the scheduling request information is used to request an uplink resource from the first base station; If the information bit is 01, the scheduling request information is used to request an uplink resource from the second base station; if the parsed information bit is 11, the scheduling request information is used to request uplink resources to the first base station and the second base station at the same time. .
  • the method further includes: a transceiver unit, configured to: if the device is configured in a macro base station, based on the second determining unit Before the scheduling request is configured to determine the physical uplink control channel resource for the user equipment to transmit the scheduling request information, send the scheduling request configuration to the user equipment or the micro base station by using the high layer signaling; or if the device is configured in the micro base station, the second The determining unit receives the scheduling request configuration sent by the macro base station before configuring the physical uplink control channel resource for determining the user equipment transmission scheduling request information based on the scheduling request.
  • a transceiver unit configured to: if the device is configured in a macro base station, based on the second determining unit Before the scheduling request is configured to determine the physical uplink control channel resource for the user equipment to transmit the scheduling request information, send the scheduling request configuration to the user equipment or the micro base station by using the high layer signaling; or if the device is configured in the micro base station, the second The determining unit receives the scheduling request configuration sent by the macro base
  • a user equipment including: a receiver, configured to receive a scheduling request configuration; a processor, configured to determine, according to the scheduling request configuration received by the receiver, information for transmitting scheduling request The physical uplink control channel resource, where the scheduling request information is used by the user equipment to request an uplink resource from the base station, and the transmitter is configured to transmit the scheduling request information on the determined physical uplink control channel resource.
  • the processor is configured to: when the scheduling request configuration includes multiple parameters indicating a physical uplink control channel, determining transmission scheduling request information according to the parameter a physical uplink control channel, where the parameters indicating the physical uplink control channel respectively indicate scheduling request information corresponding to different base stations; the transmitter is configured to: transmit, on the physical uplink control channel, a scheduling request for uplink resources to the corresponding base station Request information.
  • the processor is configured to: when the scheduling request configuration includes a parameter indicating a transmission period and a subframe offset of scheduling request information, according to The parameter indicating the transmission period and the subframe offset of the scheduling request information determines a subframe for transmitting scheduling request information for requesting uplink resources to different base stations; and the transmitter is configured to: request uplink to the corresponding base station by transmitting on the determined subframe Resource scheduling request information.
  • the processor is configured to: when the scheduling request configuration includes multiple scheduling request sub-configurations, request a corresponding base station according to the indication a transmission period of the scheduling request information of the uplink resource and a parameter of the subframe offset, determining a subframe for scheduling request information of the uplink resource of the base station corresponding to the transmission request, where each of the scheduling request sub-configurations includes the indication request corresponding a transmission period of the scheduling request information of the uplink resource of the base station and a parameter of the subframe offset; the transmitter is configured to: transmit scheduling request information of the uplink resource of the base station corresponding to the request in the subframe.
  • the processor is further configured to: when each of the scheduling request sub-configurations further includes a parameter indicating a physical uplink control channel, according to The parameter indicating the physical uplink control channel determines a physical uplink control channel of the transmission scheduling request information; the transmitter is further configured to: transmit, on the subframe and the physical uplink control channel, an uplink resource of the base station corresponding to the request Scheduling request information.
  • the processor is further configured to: transmit, by the transmitting unit, the scheduling on the determined physical uplink control channel resource Before the information is requested, the scheduling request information to be transmitted is determined, and the information bit is set for the scheduling request information to be transmitted, where the information bit is used to indicate the uplink resource of the base station corresponding to the scheduling request information request.
  • a base station including: a transmitter, configured to send a scheduling request configuration to a user equipment, and a processor, configured to determine, according to the scheduling request, a physical uplink control channel that determines the user equipment transmission scheduling request information And receiving, by the receiver, the scheduling request information transmitted by the user equipment on the determined physical uplink control channel resource.
  • the scheduling request configuration includes multiple parameters indicating a physical uplink control channel, each of the parameters is used to indicate that the user equipment transmits a request to the corresponding base station.
  • the processor is configured to: determine, according to the parameter indicating the physical uplink control channel, a physical uplink control channel that is sent by the user equipment to request scheduling information of the uplink resource from different base stations;
  • the receiver is configured to: detect the scheduling request information on the physical uplink control channel.
  • the processor is further configured to: And determining, by the parameter of the transmission period and the subframe offset of the indication scheduling request information, a subframe of the user equipment transmission scheduling request information; the receiver is further configured to: detect the scheduling request information on the subframe.
  • the processor is further configured to: receive scheduling request information on a subframe in an odd or even position in the subframe .
  • the scheduling request configuration includes multiple scheduling request sub-configurations, where each scheduling request sub-configuration is configured to configure a user equipment
  • the processor is configured to: determine, according to the multiple scheduling request sub-configuration, a physical uplink control channel resource that is used by the user equipment to request scheduling request information for an uplink resource, according to the multiple scheduling request sub-configuration;
  • the receiver is configured to: detect the scheduling request information on a physical uplink control channel resource indicated by the scheduling request sub-configuration.
  • the processor is further configured to: parse information bits of the scheduling request information, where the information bits are used to indicate the And scheduling the request information to request the uplink resource of the corresponding base station; determining, according to the information bit, whether the scheduling request information is scheduling request information transmitted by the user equipment to itself.
  • the embodiment of the present invention can solve the problem of how to transmit scheduling request information in an MSA scenario by scheduling request configuration (including, for example, time domain configuration, frequency domain configuration, and combination thereof), content identification of scheduling request information, and combinations thereof, thereby avoiding Delay the uplink data to get service time and improve user experience.
  • scheduling request configuration including, for example, time domain configuration, frequency domain configuration, and combination thereof
  • content identification of scheduling request information and combinations thereof, thereby avoiding Delay the uplink data to get service time and improve user experience.
  • FIG. 1 is a schematic diagram of a scene of macro microcell coupling according to an embodiment of the present invention.
  • FIG. 2 is a flow chart of a method of transmitting a scheduling request in accordance with an embodiment of the present invention.
  • FIG. 3 is a flow chart of a method of transmitting a scheduling request in accordance with another embodiment of the present invention.
  • FIG. 4 is a schematic structural diagram of an apparatus for transmitting a scheduling request according to an embodiment of the present invention.
  • FIG. 5 is a schematic structural diagram of a user equipment according to an embodiment of the present invention.
  • FIG. 6 is a schematic structural diagram of an apparatus for transmitting a scheduling request according to another embodiment of the present invention.
  • FIG. 7 is a schematic structural diagram of an apparatus for transmitting a scheduling request according to another embodiment of the present invention.
  • FIG. 8 is a schematic structural diagram of a base station according to an embodiment of the present invention. detailed description
  • GSM Global System of Mobile Communication
  • CDMA Code Division Multiple Access
  • WCDMA Wideband Code Division Multiple Access
  • GPRS General Packet Radio Service
  • LTE Long Term Evolution
  • the UE may also be called a mobile terminal, a mobile station, or the like, and may communicate with one or more core networks via a radio access network (e.g., RAN, Radio Access Network).
  • a radio access network e.g., RAN, Radio Access Network
  • the user equipment exchanges voice and/or data with the wireless access network.
  • the base station may be a base station (BTS, Base Transceiver Station) in GSM or CDMA, or may be a base station (Node B) in WCDMA, or may be an evolved base station (eNB or e-NodeB, evolutional Node B) in LTE.
  • BTS Base Transceiver Station
  • Node B base station
  • eNB evolved base station
  • e-NodeB evolutional Node B
  • both the macro cell and the micro cell have the ability to receive SA information.
  • the base station in the carrier aggregation system only needs to identify the SA information sent to itself, so the SA information does not need to be forwarded by the macro base station, thereby avoiding delaying the time for the uplink data to be served and improving the user experience.
  • the user equipment determines a physical uplink control channel resource for transmitting the scheduling request information, where the scheduling request information is used by the user equipment to request an uplink resource from the base station.
  • the user equipment transmits the scheduling request information on the determined physical uplink control channel resource.
  • the physical uplink control channel resource is a physical uplink control channel resource on the uplink carrier corresponding to the macro base station.
  • the user equipment configures uplink transmission resources, such as subframes, channels, and the like, for transmitting scheduling request information by scheduling the frequency domain, the time domain, and the like of the configuration indication.
  • the user equipment determines a physical uplink control channel for transmitting scheduling request information according to the parameter, and then the user equipment is on the physical uplink control channel.
  • the scheduling request information for requesting the uplink resource from the corresponding base station is transmitted. That is, when the scheduling request configuration indicates a frequency domain configuration, the user equipment may perform frequency domain configuration to transmit scheduling request information on the physical uplink control channel resource.
  • the parameters indicating the physical uplink control channel include the parameters of the first physical uplink control channel and the second physical uplink.
  • a parameter of the control channel where the parameter of the first physical uplink control channel is used to indicate a physical uplink control channel for transmitting scheduling request information of an uplink resource to the first base station, and the parameter of the second physical uplink control channel is used for indicating Transmitting a physical uplink control channel requesting scheduling request information of an uplink resource from the second base station.
  • the user equipment transmits the scheduling request information for requesting the uplink resource to the first base station, and the physical uplink indicated by the parameter of the second physical uplink control channel, on the physical uplink control channel indicated by the parameter of the first physical uplink control channel.
  • the scheduling request information for requesting the uplink resource from the second base station is transmitted on the control channel.
  • the user equipment determines, according to the parameter indicating the transmission period and the subframe offset of the scheduling request information, that the transmission is different.
  • the base station requests a subframe of the scheduling request information of the uplink resource.
  • the user equipment transmits scheduling request information for requesting uplink resources to the corresponding base station on the determined subframe. That is, when the scheduling request configuration indicates the time domain configuration, the user equipment may perform time domain configuration to transmit scheduling request information on the physical uplink control channel resource.
  • the scheduling request configuration includes a parameter indicating a transmission period and a subframe offset of the scheduling request information
  • the user equipment according to the The parameter indicating the transmission period and the subframe offset of the scheduling request information determines a subframe in which the scheduling request information of the uplink resource is requested to be transmitted to a different base station. For example, the user equipment transmits, in a subframe on an even position in the subframe, scheduling request information for requesting an uplink resource to the first base station, where the user equipment transmits the subframe to the subframe at an odd position in the subframe.
  • the second base station requests scheduling request information of the uplink resource.
  • the scheduling request configuration includes multiple scheduling request sub-configurations, where each scheduling request sub-configuration includes a transmission period and a subframe indicating scheduling request information of an uplink resource of the corresponding base station. a parameter of the offset; the user equipment determines, according to the indication, the transmission period of the scheduling request information of the uplink resource of the corresponding base station and the parameter of the subframe offset, and determines the subframe of the scheduling request information of the uplink resource used by the base station corresponding to the transmission request frame. The user equipment transmits scheduling request information of the uplink resource of the base station corresponding to the request on the subframe.
  • each of the scheduling request sub-configurations further includes a parameter indicating a physical uplink control channel, and the user equipment can determine a physical uplink control channel for transmitting scheduling request information according to the parameter.
  • the user equipment transmits scheduling request information of the uplink resource of the requesting base station on the subframe and the physical uplink control channel.
  • the user equipment may perform time domain configuration to transmit scheduling request information on the physical uplink control channel resource.
  • the user equipment may perform time domain and frequency domain configuration to transmit scheduling request information on the physical uplink control channel resource.
  • the user equipment configures the uplink transmission resource according to the scheduling request indicated by the base station
  • the user equipment can transmit the scheduling odd information to the base station and the base station can correctly receive the scheduling request information.
  • the user equipment may also mark the scheduling request information to be sent to different base stations, so that after the base station receives the scheduling request information sent by the user equipment, the base station can determine whether the scheduling request information is sent to itself by parsing the flag.
  • the user equipment determines scheduling request information to be transmitted, and then sets information bits for the scheduling request information to be transmitted, where the information bits are used to indicate the scheduling request information request. And corresponding to the uplink resource of the base station, the user equipment transmits the scheduling request information on the determined physical uplink control channel resource.
  • the scheduling request information to be transmitted is used to request an uplink resource from the first base station, the scheduling request information to be transmitted corresponds to The information bit is 0. If the scheduling request information to be transmitted is used to request the uplink resource from the second base station, the information bit corresponding to the scheduling request information to be transmitted is 1.
  • the scheduling request information to be transmitted is used to request the uplink resource from the first base station, the information bit corresponding to the scheduling request information to be transmitted is 10; if the scheduling request information to be transmitted is used to request uplink from the second base station a resource, where the information bit corresponding to the scheduling request information to be transmitted is 01; if the scheduling request information to be transmitted is used to simultaneously request an uplink resource from the first base station and the second base station, the scheduling request information to be transmitted corresponds to The information bit is 11.
  • the user equipment determines scheduling request information with the highest priority according to the preset priority, and transmits the scheduling request information with the highest priority. , discard other scheduling request information.
  • the preset priority is the priority of the carrier, the priority of the upper layer through semi-static signaling, or the priority of the base station.
  • the preset priority is the priority of the carrier, for example, the priority of the carrier is increased from the highest to the lowest in the order of the carrier index, that is, the carrier with a small carrier index has a higher priority.
  • the preset priority is the base station priority
  • the base station priority is that the priority of the macro base station is higher than the priority of the micro base station.
  • the embodiment of the present invention can solve the problem of how to transmit scheduling request information in an MSA scenario by scheduling request configuration (for example, including time domain configuration, frequency domain configuration, and combination thereof), content identification of scheduling request information, and combinations thereof.
  • scheduling request configuration for example, including time domain configuration, frequency domain configuration, and combination thereof
  • content identification of scheduling request information for example, including time domain configuration, frequency domain configuration, and combination thereof.
  • the problem is to avoid delaying the time when the uplink data is serviced and to improve the user experience.
  • the transmission method of the transmission scheduling request on the base station side is described in detail below with reference to FIG. 3. Since the operation on the base station side and the operation on the user equipment side correspond to each other, the duplicated content is omitted here. As shown in Figure 3, the method includes the following steps.
  • the base station configures, according to the scheduling request, a physical uplink control channel resource that determines a user equipment transmission scheduling request information.
  • the base station detects the scheduling request information on the physical uplink control channel resource. For example, if the base station is a macro base station, the macro base station sends a scheduling request configuration to the user equipment through high layer signaling, and then configures a physical medium that determines the user equipment transmission scheduling request information based on the scheduling request. And uplink control channel resources, and detecting the scheduling request information on the physical uplink control channel resource.
  • the micro base station has the capability of receiving a physical uplink control channel sent on the uplink carrier of the macro base station. Therefore, the micro base station receives the scheduling request configuration sent by the macro base station, and then configures a physical uplink control channel resource that determines the user equipment transmission scheduling request information based on the scheduling request, and then detects the scheduling request information on the physical uplink control channel resource. . Further, the micro base station detects the scheduling request information on the physical uplink control channel resource, where the physical uplink control channel indicated by the physical uplink control channel resource is located on an uplink carrier corresponding to the macro base station.
  • the scheduling request configuration includes multiple parameters indicating a physical uplink control channel
  • each of the parameters is used to indicate that the user equipment transmits a physical uplink control channel that requests scheduling request information of the uplink resource from the corresponding base station.
  • the base station determines, according to the parameter indicating the physical uplink control channel, a physical uplink control channel that is requested by the user equipment to request uplink resource scheduling request information from different base stations, and then detects the scheduling request information on the physical uplink control channel.
  • the base station determines the user based on the parameter of the transmission period and the subframe offset indicating the scheduling request information.
  • the device transmits a subframe of the scheduling request information, and then detects the scheduling request information on the subframe. For example, taking the case where there are only two base stations (e.g., one macro base station and one micro base station) in the system, the base station can receive scheduling request information on subframes in odd or even positions in the subframe.
  • the scheduling request configuration when the scheduling request configuration includes multiple scheduling request sub-configurations, and each of the scheduling request sub-configurations is configured to configure scheduling request information of an uplink resource of a base station corresponding to the user equipment, the base station is based on The plurality of scheduling request sub-configurations determine a physical uplink control channel resource that is requested by the user equipment to request the uplink resource scheduling request information, and then detect the scheduling request on the physical uplink control channel resource indicated by the scheduling request sub-configuration. information.
  • the base station parses the information bits of the scheduling request information, where the information bits are used to indicate the uplink resources of the base station corresponding to the scheduling request information request. Then, the base station determines, according to the information bits, whether the scheduling request information is scheduling request information transmitted by the user equipment to itself. Take the case where there are only two base stations (for example, one macro base station and one micro base station) in the system.
  • the scheduling request information is used to request an uplink resource from the first base station; if the information bit of the parsed scheduling request information is 1, the scheduling request information is used to request an uplink resource from the second base station; Or if the parsed information bit is 10, the scheduling request information is used to request an uplink resource from the first base station; if the parsed information bit is 01, the scheduling request information is used to request an uplink resource from the second base station; The information bit is 11, and the scheduling request information is used to request uplink resources to the first base station and the second base station at the same time.
  • the embodiment of the present invention can solve the problem of how to transmit scheduling request information in an MSA scenario by scheduling request configuration (for example, including time domain configuration, frequency domain configuration, and combination thereof), content identification of scheduling request information, and combinations thereof.
  • scheduling request configuration for example, including time domain configuration, frequency domain configuration, and combination thereof
  • content identification of scheduling request information for example, including time domain configuration, frequency domain configuration, and combination thereof.
  • the problem is to avoid delaying the time when the uplink data is serviced and to improve the user experience.
  • the above three implementation manners may be combined with each other, that is, the frequency domain configuration, the time domain configuration, and the content identifier of the scheduling request information may be combined or combined in combination, and the combined implementation manner may also be used to transmit scheduling request information.
  • a specific embodiment will be given below. Taking only two base stations (for example, one macro base station and one T base station) in the system as an example, how to set the scheduling request configuration is described in detail, so as to implement the transmission of the scheduling request information according to the scheduling request configuration. It is understood that the specific embodiments set forth below are merely exemplary, and other specific embodiments can be derived by those skilled in the art upon understanding the spirit of the invention.
  • Embodiment 1 Embodiment 1
  • Step 1 The user equipment receives the scheduling request configuration.
  • the user equipment receives a scheduling request configuration that is notified by the base station through high layer signaling, and the base station may be a macro base station.
  • the scheduling request configuration may include a first scheduling request configuration and a second scheduling request configuration, and the first scheduling request is configured to configure scheduling request information requesting the uplink resource of the first base station, and the second scheduling request is configured to configure the requesting the second base station Scheduling request information of uplink resources.
  • the first scheduling request configuration includes a parameter indicating a transmission period and a subframe offset of the scheduling request information requesting the uplink resource of the first base station, and the user equipment determines, according to the parameter, a transmission period and a subframe offset of the scheduling request information, according to the determined transmission period and the sub- The frame offset determines a subframe for transmitting scheduling request information requesting the uplink resource of the first base station;
  • the second scheduling request configuration includes a parameter indicating a transmission period and a subframe offset of the scheduling request information requesting the uplink resource of the second base station, the user equipment Determining a transmission period and a subframe offset of the scheduling request information according to the parameter, and determining, according to the determined transmission period and the subframe offset, a subframe for transmitting scheduling request information requesting the uplink resource of the second base station.
  • the configuration may further include a parameter indicating a physical uplink control channel resource, where the physical uplink control channel is used to transmit scheduling request information requesting the uplink resource of the first base station; and the second scheduling request configuration may further include a parameter indicating a physical uplink control channel resource, where The physical uplink control channel is configured to transmit scheduling request information requesting uplink resources of the second base station.
  • the physical uplink control channel resources indicated by the first scheduling request configuration and the second scheduling request configuration may be the same or different.
  • the scheduling request configuration in the step 1 indicates that the first base station uplink is transmitted in the same physical uplink control channel and different subframes respectively. Scheduling request information of the resource and scheduling request information requesting the uplink resource of the second base station. If the first uplink scheduling request configuration and the second scheduling request configuration indicate that the physical uplink control channel resources are different, the scheduling request configuration in the step 1 indicates that the first base station uplink is requested to be transmitted in different physical uplink control channels and different subframes respectively. Scheduling request information of the resource and scheduling request information requesting the uplink resource of the second base station.
  • the first base station may be a macro base station
  • the second base station may be a micro base station
  • Step 2 The user equipment determines scheduling request information to be transmitted.
  • step 2 the user equipment determines scheduling request information to be transmitted.
  • the user equipment first determines, according to the scheduling request configuration information received in step 1, whether the current subframe is a subframe for transmitting scheduling request information requesting the uplink resource of the first base station, or a scheduling request message for transmitting uplink resource requesting the second base station. Subframe.
  • the scheduling request information to be transmitted in the current subframe includes multiple scheduling request information for requesting uplink resources of different base stations
  • the scheduling request information with the highest priority is determined according to the preset priority.
  • the scheduling request information with the highest priority is transmitted, and other scheduling request information is discarded.
  • the preset priority may be the priority of the carrier, or the priority of the upper layer through semi-static signaling, or the priority of the base station.
  • Step 3 The user equipment determines, according to the scheduling request configuration received in step 1, the physical uplink control channel resource, where the physical uplink control channel resource is used to transmit the scheduling request information.
  • the step 3 acquires the physical uplink control channel resource according to the parameter indicating the physical uplink control channel resource included in the scheduling request configuration in step 1. If the first scheduling request configuration and the second scheduling request configuration do not include the parameter indicating the physical uplink control channel resource, if the current subframe is a subframe for transmitting the scheduling request information of the first base station uplink resource, the step 3 is based on The parameter of the transmission period and the subframe offset of the scheduling request information requesting the uplink resource of the first base station in the first scheduling request configuration acquires the physical uplink control channel resource, and if the current subframe is the scheduling request information of the uplink resource of the second base station for the transmission request For the subframe, the step 3 acquires the physical uplink control channel resource according to the transmission period and the subframe offset parameter of the scheduling request information of the uplink resource of the second base station indicated in the second scheduling request configuration.
  • Step 4 The user equipment transmits scheduling request information on the physical uplink control channel resource determined in step 3.
  • step 4 the user equipment sends the scheduling request information to the base station on the physical uplink control channel resource determined in step 3.
  • the sending method is prior art, and details are not described herein again.
  • Step 5 The base station detects the scheduling request information transmitted by the user equipment. This step 5 can include the following steps:
  • Step 5-1 The base station determines the physical uplink control channel resource of the user equipment transmission scheduling request information based on the scheduling odd configuration.
  • the base station in step 5-1 may be a macro base station or a micro base station.
  • step 5-1 further includes:
  • Step 5-1-a The base station sends a scheduling request configuration to the user equipment by using the high layer signaling;
  • the base station may send a scheduling spoofing configuration to the user equipment by using the RRC (Radio Resource Control) signaling, and the related information of the scheduling request configuration is consistent with that in step 1. .
  • RRC Radio Resource Control
  • Step 5-1-b The base station configures, according to the scheduling request, a physical uplink control channel resource that determines user equipment transmission scheduling request information;
  • the base station configures according to the scheduling request in step 1.
  • the parameter indicating the physical uplink control channel resource included in the physical uplink control channel resource is obtained. If the first scheduling request configuration and the second scheduling request configuration do not include the parameter indicating the physical uplink control channel resource, if the current subframe is a subframe for requesting the user equipment to request the scheduling request information of the first base station uplink resource, the step is In the case of 5-1-b, the base station obtains the transmission period of the scheduling request information of the uplink resource of the first base station and the parameter acquisition of the subframe offset according to the request in the first scheduling request configuration.
  • the physical uplink control channel resource if the current subframe is a subframe in which the user equipment transmits the scheduling request information requesting the uplink resource of the second base station, in step 5-1-b, the base station according to the request indicated in the second scheduling request configuration
  • the transmission period of the scheduling request information of the second base station uplink resource and the parameter of the subframe offset acquire the physical uplink control channel resource.
  • step 5-1 further includes:
  • Step 5-1-c The base station receives a scheduling request configuration sent by the macro base station;
  • the base station receives the configuration of the scheduling request sent by the macro base station through the X2 interface, and the related information of the scheduling request configuration is the same as that in step 1.
  • Step 5-1-d The base station configures the physical uplink control channel resource for determining the user equipment transmission scheduling request information based on the scheduling request received in step 5-1-c.
  • step 5-1-d is the same as step 5-1-b, and will not be described here.
  • Step 5-2 The base station detects the scheduling request information on the physical uplink control channel resource obtained in step 5-1.
  • the base station detects the scheduling request information on the physical uplink control channel resource obtained in step 5-1. If the base station in the step 5-2 is a micro base station, the base station has the capability of receiving the uplink carrier of the macro base station, because the micro base station has the capability of receiving the physical uplink control channel transmitted on the uplink carrier of the macro base station.
  • the physical uplink control channel indicated by the physical uplink control channel resource in the step 5-2 is located on the uplink carrier corresponding to the macro base station.
  • the user equipment sends the scheduling request information. And determining, according to the following manner, the scheduling request information sent by the user equipment: if the current subframe is a subframe for transmitting scheduling request information of the uplink resource of the first base station, the scheduling request information detected on the physical uplink control channel is the request a scheduling request of a base station uplink resource; if the current subframe is a subframe for transmitting scheduling request information of the second base station uplink resource, the scheduling request information detected on the physical uplink control channel is a scheduling request for requesting the uplink resource of the second base station .
  • the base station determines that the scheduling request is determined according to the preset priority.
  • the scheduling request information is the scheduling request information with the highest priority among the multiple scheduling request information; the preset priority may be the priority of the carrier, or the priority of the upper layer through the semi-static signaling, or the priority of the base station level.
  • the scheduling request information for requesting uplink resources of different base stations is time-divided
  • the multiplexing mode is sent on the uplink carrier corresponding to the macro base station to solve the problem of how to transmit the scheduling request in the MSA scenario.
  • the micro base station by allowing the micro base station to have the capability of receiving the uplink carrier of the macro base station, the time for delaying the uplink data to be served is avoided, and the time is increased.
  • Step 1 The user equipment receives the scheduling request configuration.
  • the user equipment receives the scheduling request configuration notified by the base station through the high layer signaling, and the base station may be a macro base station.
  • the scheduling request configuration includes a parameter indicating a transmission period and a subframe offset of the scheduling request information, the user equipment determines a transmission period and a subframe offset of the scheduling request information according to the parameter, and determines a transmission scheduling request according to the transmission period and the subframe offset. Subframe.
  • the scheduling request information requesting the uplink resources of different base stations is transmitted in a time division multiplex manner. For example, when the user equipment aggregates the uplink carriers from the two base stations, the scheduling request information may be sent according to the following manner: 4.
  • the subframe for transmitting the scheduling request is determined according to the transmission period and the subframe offset, and the transmission scheduling is performed.
  • the subframe in the even-numbered position in the requested subframe is used to transmit scheduling request information requesting the uplink resource of the first base station, and the subframe in the odd-numbered position in the subframe of the transmission scheduling request is used to transmit the uplink resource of the second base station.
  • Scheduling request information is used.
  • the first subframe in the subframe of the transmission scheduling request is an even subframe, and so on.
  • the scheduling request configuration further includes a parameter indicating a physical uplink control channel resource, and is used to indicate a physical uplink control channel resource that the user equipment sends the scheduling request.
  • the first base station may be a macro base station, and the second base station may be a micro base station.
  • Step 2 The user equipment determines scheduling request information to be transmitted.
  • This step 2 is the same as step 2 of the first embodiment, and will not be further described herein.
  • Step 3 The user equipment determines, according to the scheduling request configuration received in step 1, the physical uplink control channel resource, where the physical uplink control channel resource is used to transmit the scheduling request information.
  • the step 3 obtains the physical uplink control channel resource according to the parameter indicating the physical uplink control channel resource included in the scheduling request configuration in the step 1.
  • the physical uplink control channel indicated by the physical uplink control channel resource may be located on the uplink carrier corresponding to the macro base station. .
  • Step 4 The user equipment transmits scheduling request information on the physical uplink control channel resource determined in step 3.
  • step 4 the user equipment sends the scheduling request information to the base station on the physical uplink control channel resource determined in step 3.
  • the sending method is prior art, and details are not described herein again.
  • Step 5 The base station detects the scheduling request information transmitted by the user equipment. This step 5 may further include the following steps:
  • Step 5-1 The base station configures a physical uplink control channel resource that determines user equipment transmission scheduling request information based on the scheduling request.
  • the base station in the step 5-1 may include a macro base station and a micro base station.
  • step 5-1 further includes:
  • Step 5-1-a The base station sends a scheduling request configuration to the user equipment by using the high layer signaling.
  • the base station may send a scheduling request configuration to the user equipment by using RRC signaling, and the related information of the scheduling request configuration. It is consistent with step 1, and will not be described here.
  • Step 5-1-b The base station configures, according to the scheduling request, a physical uplink control channel resource that determines user equipment transmission scheduling request information;
  • the base station acquires the physical uplink control channel resource according to the parameter indicating the physical uplink control channel resource included in the scheduling request configuration in the step 5-1-a.
  • step 5-1 further includes:
  • Step 5-1-C The base station receives the scheduling request configuration sent by the macro base station;
  • the base station receives the scheduling request configuration sent by the macro base station, and specifically, the base station receives the scheduling odd-configuration configuration that the macro base station sends through the X2 interface.
  • the information related to the configuration of the scheduling request is the same as that in step 1, and is not described here.
  • Step 5-1-d The base station configures, according to the scheduling request received in step 5-1-c, a physical uplink control channel resource that determines the user equipment to transmit scheduling request information.
  • step 5-1-d is the same as step 5-1-b, and will not be described here.
  • Step 5-2 The base station detects the scheduling request information on the physical uplink control channel resource obtained in step 5-1.
  • step 5-2 the base station detects the scheduling request information on the physical uplink control channel resource obtained in step 5-1. If the base station in the step 5-2 is a micro base station, the base station has the capability of receiving the uplink carrier of the macro base station, and specifically, the base station has the capability of receiving the physical uplink control channel transmitted on the uplink carrier of the macro base station.
  • the physical uplink control channel indicated by the physical uplink control channel resource in the step 5-2 is located on the uplink carrier corresponding to the macro base station.
  • step 5-2 if the base station detects information on the physical uplink control channel obtained in step 5-1, the user equipment sends the scheduling request information. And determining, according to the following manner, the scheduling request information sent by the user equipment: if the current subframe is a subframe for transmitting scheduling request information of the uplink resource of the first base station, the scheduling request information detected on the physical uplink control channel is the first request. Base station If the current subframe is a subframe for transmitting the scheduling request information of the uplink resource of the second base station, the scheduling request information detected on the physical uplink control channel is a scheduling request for requesting the uplink resource of the second base station.
  • the scheduling request information requesting the uplink resources of different base stations is sent in the time-division multiplexing manner on the uplink carrier corresponding to the macro base station, so as to solve the problem of how to transmit the scheduling request in the MSA scenario; It has the ability to receive the uplink carrier of the macro base station, avoiding delaying the time for the uplink data to be served, and improving the user experience.
  • Step 1 The user equipment receives the scheduling request configuration.
  • the user equipment receives the scheduling request configuration notified by the base station through the high layer signaling, and the base station may be a macro base station.
  • the scheduling request configuration includes a parameter indicating a transmission period and a subframe offset of the scheduling request information, the user equipment determines a transmission period and a subframe offset of the scheduling request information according to the parameter, and determines a transmission scheduling request according to the transmission period and the subframe offset. Subframe.
  • the scheduling request configuration further includes a parameter indicating a physical uplink control channel resource, and is used to indicate a physical uplink control channel resource that the user equipment sends the scheduling request.
  • Step 2 The user equipment determines scheduling request information to be transmitted.
  • the user may determine the scheduling request information to be transmitted in one of the following manners: Mode 1: The user equipment transmits the 1-bit scheduling request information, which may be: if the scheduling request information to be transmitted is used to request the first base station The information bit of the scheduling request information to be transmitted is 0; if the scheduling request information to be transmitted is used to request the uplink resource of the second base station, the information bit of the scheduling request information to be transmitted is 1;
  • the user equipment transmits the 2-bit scheduling request information, which may be: if the scheduling request information to be transmitted is used to request the uplink resource of the first base station, the information bit of the scheduling request information to be transmitted is 10; The scheduling request information of the transmission is used to request the uplink resource of the second base station, and the information bit of the scheduling request information to be transmitted is 01; if the scheduling request information to be transmitted is used to request the uplink of the first base station and the second base station at the same time For the resource, the information bit of the scheduling request information to be transmitted is 11.
  • the first base station in the step 2 may be a macro base station, and the second base station may be a micro base station, but is not limited thereto.
  • Step 3 The user equipment determines the physical uplink control based on the scheduling request configuration received in step 1.
  • Channel resource, the physical uplink control channel resource is used to transmit the scheduling request information.
  • the step 3 obtains the physical uplink control channel resource according to the parameter indicating the physical uplink control channel resource included in the scheduling request configuration in the step 1.
  • the physical uplink control channel indicated by the physical uplink control channel resource may be located on the uplink carrier corresponding to the macro base station. .
  • Step 4 The user equipment transmits scheduling request information on the physical uplink control channel resource determined in step 3.
  • step 4 the user equipment sends the scheduling request information to the base station on the physical uplink control channel resource determined in step 3.
  • the sending method is prior art, and details are not described herein again.
  • Step 5 The base station detects the scheduling request information transmitted by the user equipment. This step 5 can include the following steps:
  • Step 5-1 The base station determines the physical uplink control channel resource of the user equipment transmission scheduling request information based on the scheduling odd configuration.
  • the base station in the step 5-1 may include a macro base station and a micro base station.
  • step 5-1 further includes:
  • Step 5-1-a The base station sends a scheduling request configuration to the user equipment by using the high layer signaling.
  • the base station may send a scheduling request configuration to the user equipment by using RRC signaling, and the related information of the scheduling request configuration. It is consistent with step 1, and will not be described here.
  • Step 5-1-b The base station configures, according to the scheduling request, a physical uplink control channel resource that determines user equipment transmission scheduling request information;
  • the base station acquires the physical uplink control channel resource according to the parameter indicating the physical uplink control channel resource included in the scheduling request configuration in the step 5-1-a.
  • step 5-1 further includes:
  • Step 5-1-c The base station receives a scheduling request configuration sent by the macro base station;
  • the base station receives the scheduling request configuration sent by the macro base station, and specifically, the base station receives the scheduling request configuration sent by the macro base station through the X2 interface.
  • the information related to the configuration of the scheduling request is the same as that in step 1, and is not described here.
  • Step 5-1-d The base station configures, according to the scheduling request received in step 5-1-c, a physical uplink control channel resource that determines the user equipment to transmit scheduling request information.
  • step 5-1-d is the same as step 5-1-b, and will not be described here.
  • Step 5-2 The base station detects the scheduling request information on the physical uplink control channel resource obtained in step 5-1.
  • step 5-2 the base station detects and schedules the physical uplink control channel resource obtained in step 5-1. Request information. If the base station in the step 5-2 is a micro base station, the base station has the capability of receiving the uplink carrier of the macro base station, and specifically, the base station has the capability of receiving the physical uplink control channel sent on the uplink carrier of the macro base station.
  • the physical uplink control channel indicated by the physical uplink control channel resource in the step 5-2 is located on the uplink carrier corresponding to the macro base station.
  • step 5-2 if the base station detects information on the physical uplink control channel obtained in step 5-1, the user equipment sends the scheduling request information. And further determining the scheduling request information sent by the user equipment according to the following manner:
  • the step 5-2 is performed as follows: If the information bit of the detected scheduling request information is 0, the scheduling request information is used for the request. An uplink resource of a base station; if the information bit of the detected scheduling request information is 1, the scheduling request information is used to request an uplink resource of the second base station.
  • the step 5-2 is performed as follows: If the information bit of the detected scheduling request information is 10, the scheduling request information is used to request the first base station. If the information bit of the detected scheduling request information is 01, the scheduling request information is used to request an uplink resource of the second base station; if the information bit of the detected scheduling request information is 11, the scheduling The request information is used to simultaneously request uplink resources of the first base station and the second base station.
  • the problem of how to transmit a scheduling request in an MSA scenario is solved by using different information state indications to request scheduling request information of uplink resources of different base stations; and at the same time, by allowing the micro base station to have the capability of receiving the uplink carrier of the macro base station, Delay the uplink data to get service time and improve user experience.
  • the apparatus 40 includes a receiving unit 41, a first determining unit 42, and a transmitting unit 43.
  • the receiving unit 41 is configured to receive a scheduling request configuration, where the first determining unit 42 is configured to determine, according to the received scheduling request configuration, a physical uplink control channel resource used for transmitting scheduling request information, where the scheduling request information is used by the The user equipment requests uplink resources from the base station.
  • the transmitting unit 43 is configured to transmit the scheduling request information on the determined physical uplink control channel resource.
  • the first determining unit 42 is configured to: when the scheduling request configuration includes multiple parameters indicating a physical uplink control channel, determine a physical uplink control channel for transmitting scheduling request information according to the parameter.
  • the transmitting unit 43 is configured to transmit, on the physical uplink control channel, scheduling request information for requesting an uplink resource from the corresponding base station.
  • the transmitting unit 43 is configured to: when the plurality of parameters indicating the physical uplink control channel include a parameter of the first physical uplink control channel and a parameter of the second physical uplink control channel, parameters of the first physical uplink control channel.
  • the scheduling request information for requesting the uplink resource from the first base station is transmitted on the indicated physical uplink control channel, and the scheduling request information for requesting the uplink resource from the second base station is transmitted on the physical uplink control channel indicated by the parameter of the second physical uplink control channel.
  • the parameter of the first physical uplink control channel is used to indicate a physical uplink control channel for transmitting scheduling request information of the uplink resource to the first base station
  • the parameter of the second physical uplink control channel is used to indicate that the transmission is to the second The physical uplink control channel that the base station requests the scheduling request information of the uplink resource.
  • the first determining unit 42 is configured to: when the scheduling request is configured to include a parameter indicating a transmission period and a subframe offset of the scheduling request information, determine a parameter of a transmission period and a subframe offset according to the indication scheduling request information.
  • the transmitting unit 43 is configured to transmit, on the determined subframe, scheduling request information for requesting an uplink resource from the corresponding base station.
  • the transmitting unit 43 is configured to transmit, in a subframe on an even position in the subframe, scheduling request information for requesting an uplink resource to the first base station, and transmit the information to the subframe at an odd position in the subframe.
  • the second base station requests scheduling request information of the uplink resource.
  • the first determining unit 42 is configured to: when the scheduling request configuration includes multiple scheduling request sub-configurations, request a transmission period and a subframe offset parameter of the scheduling request information of the uplink resource of the corresponding base station according to the indication Determining a subframe for scheduling request information of an uplink resource of a base station corresponding to the request, where each scheduling request sub-configuration includes a transmission period and a subframe offset indicating scheduling scheduling information of an uplink resource of the base station corresponding to the request Parameters.
  • the transmitting unit 43 is configured to transmit, on the subframe, scheduling request information of an uplink resource of the base station corresponding to the request.
  • the first determining unit 42 is further configured to: when each of the scheduling request sub-configurations further includes a parameter indicating a physical uplink control channel, determining physical uplink control of the transmission scheduling request information according to the parameter indicating the physical uplink control channel channel.
  • the transmitting unit 43 is further configured to transmit, on the subframe and the physical uplink control channel, scheduling request information of an uplink resource of the base station corresponding to the request.
  • the first determining unit 42 is further configured to determine scheduling request information to be transmitted and the scheduling to be transmitted before the transmitting unit 43 transmits the scheduling request information on the determined physical uplink control channel resource.
  • the request information sets an information bit, and the information bit is used to indicate an uplink resource of the base station corresponding to the scheduling request information request. If the scheduling request information to be transmitted is used to request the uplink resource from the first base station, the information bit corresponding to the scheduling request information to be transmitted is 0; The scheduling request information to be transmitted is used to request the uplink resource from the second base station, and the information bit corresponding to the scheduling request information to be transmitted is 1; or the scheduling request information to be transmitted is used to request the uplink resource from the first base station.
  • the information bit corresponding to the scheduling request information to be transmitted is 10; if the scheduling request information to be transmitted is used to request the uplink resource from the second base station, the information bit corresponding to the scheduling request information to be transmitted is 01; If the scheduling request information to be transmitted is used to request the uplink resource from the first base station and the second base station, the information bit corresponding to the scheduling request information to be transmitted is 11.
  • the first determining unit 42 is further configured to: if the scheduling request information to be transmitted includes multiple scheduling request information for requesting uplink resources to different base stations, determining, according to the preset priority, the scheduling request information is prioritized The highest priority scheduling request information, where the preset priority is the priority of the carrier, the priority of the upper layer through semi-static signaling, or the priority of the base station.
  • the physical uplink control channel resource is the physical uplink control channel resource on the uplink carrier corresponding to the macro base station.
  • the embodiment of the present invention can solve the problem of how to transmit scheduling request information in an MSA scenario by scheduling request configuration (for example, including time domain configuration, frequency domain configuration, and combination thereof), content identification of scheduling request information, and combinations thereof.
  • scheduling request configuration for example, including time domain configuration, frequency domain configuration, and combination thereof
  • content identification of scheduling request information for example, including time domain configuration, frequency domain configuration, and combination thereof.
  • the problem is to avoid delaying the time when the uplink data is serviced and to improve the user experience.
  • FIG. 5 shows a user device 50 in accordance with an embodiment of the present invention.
  • the user equipment 50 includes a receiver 51, a processor 52, and a transmitter 53.
  • the receiver 51 can be configured to receive a scheduling request configuration.
  • the processor 52 may be configured to determine, according to the scheduling request configuration received by the receiver 51, a physical uplink control channel resource for transmitting scheduling request information, where the scheduling request information is used by the user equipment to request an uplink resource from the base station. .
  • the transmitter 53 can be configured to upload the scheduling request information on the determined physical uplink control channel resource.
  • the user equipment may further include a memory 54 in which an instruction corresponding to the step of the transmission method of the transmission scheduling request of the embodiment of the present invention implemented by the user equipment side may be stored, and the processor 52 executes the memory 54 The instruction is used to implement a transmission method of a transmission scheduling request according to an embodiment of the present invention.
  • the processor 52 is configured to: when the scheduling request configuration includes multiple parameters indicating a physical uplink control channel, determine a physical uplink control channel for transmitting scheduling request information according to the parameter, where the multiple indication physical uplink control
  • the parameters of the channel respectively indicate scheduling request information corresponding to different base stations; the transmitter 53 is configured to transmit to the corresponding base station on the physical uplink control channel.
  • the scheduling request information of the uplink resource is obtained.
  • the processor 52 is configured to: when the scheduling request configuration includes a parameter indicating a transmission period and a subframe offset of the scheduling request information, determine, according to the parameter indicating the transmission period and the subframe offset of the scheduling request information, that the transmission requests to different base stations a subframe of the scheduling request information of the uplink resource; the transmitter 53 is configured to transmit scheduling request information for requesting the uplink resource to the corresponding base station in the determined subframe.
  • the processor 52 is configured to: when the scheduling request configuration includes multiple scheduling request sub-configurations, determine, according to the indication, a transmission period of the uplink resource scheduling request information of the corresponding base station, and a parameter of the subframe offset, and determine to be used for transmission.
  • the processor 52 is further configured to: when each of the scheduling request sub-configurations further includes a parameter indicating a physical uplink control channel, determining a physical uplink control channel for transmitting scheduling request information according to the parameter indicating the physical uplink control channel;
  • the 53 is further configured to transmit scheduling request information of the uplink resource of the base station corresponding to the request on the subframe and the physical uplink control channel.
  • the processor 52 is further configured to: before the transmitting unit transmits the scheduling request information on the determined physical uplink control channel resource, determine scheduling request information to be transmitted and set the scheduling request information to be transmitted.
  • Information bits where the information bits are used to indicate uplink resources of the base station corresponding to the scheduling request information request.
  • the embodiment of the present invention can solve the problem of how to transmit scheduling request information in an MSA scenario by scheduling request configuration (for example, including time domain configuration, frequency domain configuration, and combination thereof), content identification of scheduling request information, and combinations thereof.
  • scheduling request configuration for example, including time domain configuration, frequency domain configuration, and combination thereof
  • content identification of scheduling request information for example, including time domain configuration, frequency domain configuration, and combination thereof.
  • the problem is to avoid delaying the time when the uplink data is serviced and to improve the user experience.
  • the transmission device 60 of the transmission scheduling request in Fig. 6 includes a second determining unit 61 and a detecting unit 62.
  • the second determining unit 61 is configured to configure, according to the scheduling request, a physical uplink control channel resource that determines user equipment transmission scheduling request information.
  • the detecting unit 62 is configured to detect the scheduling request information on the physical uplink control channel resource.
  • the scheduling request configuration includes multiple parameters indicating a physical uplink control channel
  • each of the parameters is used to indicate that the user equipment transmits a physical uplink control channel requesting uplink resource scheduling request information to the corresponding base station
  • the determining unit 61 is configured to determine, according to the parameter indicating the physical uplink control channel, the scheduling of the uplink resource requested by the user equipment by the user equipment
  • the detecting unit 62 is configured to detect the scheduling request information on the physical uplink control channel.
  • the second determining unit 61 is configured to determine, according to the parameter indicating the transmission period and the subframe offset of the scheduling request information, the user equipment transmission.
  • a subframe for scheduling request information the detecting unit 62 is configured to detect the scheduling request information on the subframe.
  • the second determining unit 61 may be further configured to receive scheduling request information on a subframe on an odd or even position in the subframe.
  • the scheduling request configuration includes multiple scheduling request sub-configurations, where each of the scheduling request sub-configurations is configured to configure scheduling request information of uplink resources of the base station corresponding to the user equipment request
  • the second determining unit 61 is configured to: And determining, by the multiple scheduling request sub-configuration, a physical uplink control channel resource that is sent by the user equipment to the scheduling request information of the uplink resource, and the detecting unit 62 is configured to use the physical uplink control channel resource indicated by the scheduling request sub-configuration.
  • the scheduling request information is detected.
  • the detecting unit 62 is further configured to parse the information bits of the scheduling request information, where the information bits are used to indicate an uplink resource of the base station corresponding to the scheduling request information request, and determine the scheduling according to the information bits. Whether the request information is scheduling request information transmitted by the user equipment to itself. If the parsed information bit is 0, the scheduling request information is used to request an uplink resource from the first base station; if the information bit of the parsed scheduling request information is 1, the scheduling request information is used to request uplink from the second base station.
  • the scheduling request information is used to request an uplink resource from the first base station; if the parsed information bit is 01, the scheduling request information is used to request an uplink resource from the second base station; If the parsed information bit is 11, the scheduling request information is used to request uplink resources to the first base station and the second base station at the same time.
  • the transmission device 70 of the transmission scheduling request shown in Fig. 7 includes a second determining unit 61, a detecting unit 62, and a transceiving unit 63.
  • the second determining unit 61 and the detecting unit 62 are the same as the second determining unit 61 and the detecting unit 62 in Fig. 6.
  • the transceiver unit 63 is configured to send the user equipment or The micro base station sends a scheduling request configuration.
  • the transceiver unit 63 is configured to receive the scheduling request configuration sent by the macro base station before the second determining unit 62 configures the physical uplink control channel resource that determines the user equipment transmission scheduling request information based on the scheduling request.
  • the embodiment of the present invention can solve the problem of how to transmit scheduling request information in an MSA scenario by scheduling request configuration (for example, including time domain configuration, frequency domain configuration, and combination thereof), content identification of scheduling request information, and combinations thereof. The problem is to avoid delaying the time when the uplink data is serviced and to improve the user experience.
  • FIG. 8 is a schematic structural diagram of a base station according to an embodiment of the present invention.
  • the base station 80 includes: a transmitter 81, a processor 82, and a receiver 83.
  • the sender 81 is configured to send a scheduling request configuration to the user equipment.
  • the processor 82 is configured to determine, according to the scheduling request, a physical uplink control channel resource that is determined by the user equipment to transmit scheduling request information.
  • the receiver 83 is configured to receive the scheduling request information transmitted by the user equipment on the determined physical uplink control channel resource.
  • the base station 80 may further include a memory 84 in which an instruction corresponding to the steps of the transmission method of the transmission scheduling request of the embodiment of the present invention implemented by the base station side may be stored, and the processor 82 executes the instruction in the memory 54 by executing the instruction in the memory 54 The transmission method of the transmission scheduling request in the embodiment of the present invention is implemented.
  • the scheduling request configuration includes multiple parameters indicating a physical uplink control channel
  • each of the parameters is used to indicate that the user equipment transmits a physical uplink control channel that requests scheduling request information of the uplink resource from the corresponding base station
  • the device 82 is configured to determine, according to the parameter indicating the physical uplink control channel, a physical uplink control channel that is sent by the user equipment to request scheduling information of the uplink resource to the different base station, where the receiver 83 is configured to detect the physical uplink control channel.
  • the processor 82 is further configured to determine, according to the parameter indicating the transmission period and the subframe offset of the scheduling request information, the user equipment transmission scheduling.
  • the subframe of the request information; the receiver 83 is further configured to detect the scheduling request information on the subframe.
  • the processor 82 is configured to receive scheduling request information on subframes in odd or even positions in the subframe.
  • the scheduling request configuration includes multiple scheduling request sub-configurations, where each of the scheduling request sub-configurations is configured to configure scheduling request information of an uplink resource of a base station corresponding to the user equipment request;
  • the plurality of scheduling request sub-configurations determine a physical uplink control channel resource that is sent by the user equipment to the scheduling request information of the uplink resource, and the receiver 83 is configured to detect the physical uplink control channel resource indicated by the scheduling request sub-configuration. Scheduling request information.
  • the processor 82 is further configured to parse the information bit of the scheduling request information, where the information bit is used to indicate an uplink resource of the base station corresponding to the scheduling request information request; The bit determines whether the scheduling request information is scheduling request information transmitted by the user equipment to itself. It can be seen that the embodiment of the present invention can solve the problem of how to transmit scheduling request information in an MSA scenario by scheduling request configuration (for example, including time domain configuration, frequency domain configuration, and combination thereof), content identification of scheduling request information, and combinations thereof. The problem is to avoid delaying the time when the uplink data is serviced and to improve the user experience.
  • scheduling request configuration for example, including time domain configuration, frequency domain configuration, and combination thereof
  • the disclosed systems, devices, and methods may be implemented in other ways.
  • the device embodiments described above are merely illustrative.
  • the division of the unit is only a logical function division.
  • there may be another division manner for example, multiple units or components may be combined or Can be integrated into another system, or some features can be ignored, or not executed.
  • the coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, device or unit, and may be electrical, mechanical or otherwise.
  • the units described as separate components may or may not be physically separate, and the components displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. Some or all of the units may be selected according to actual needs to achieve the objectives of the solution of the embodiment.
  • each functional unit in each embodiment of the present invention may be integrated into one processing unit, or each unit may exist physically separately, or two or more units may be integrated into one unit.
  • the function is implemented in the form of a software functional unit and sold or made as a standalone product When used, it can be stored in a computer readable storage medium.
  • the technical solution of the present invention which is essential or contributes to the prior art, or a part of the technical solution, may be embodied in the form of a software product, which is stored in a storage medium, including
  • the instructions are used to cause a computer device (which may be a personal computer, server, or network device, etc.) to perform all or part of the steps of the methods described in various embodiments of the present invention.
  • the foregoing storage medium includes: a U disk, a mobile hard disk, a read-only memory (ROM), a random access memory (RAM, a random access memory disk or an optical disk, and the like, which can store program codes.

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Abstract

本发明实施例涉及传输调度请求的方法和装置。其中,传输调度请求的方法包括:用户设备基于接收到的调度请求配置,确定用于传输调度请求信息的物理上行控制信道资源,其中所述调度请求信息用于所述用户设备向基站请求上行资源;所述用户设备在确定的所述物理上行控制信道资源上传输所述调度请求信息。本发明实施例能够通过调度请求配置(例如包括时域配置、频域配置及其组合配置)、调度请求信息的内容标识及其组合等解决在MSA场景下如何传输调度请求信息的问题,从而避免延迟上行数据得到服务的时间,提高用户感受。

Description

传输调度请求的方法和装置、 用户设备以及基站 技术领域
本发明涉及通信技术领域,具体而言,涉及传输调度请求的方法和装置、 用户设备以及基站。 背景技术
高级长期演进( LTE-A, Long Term Evolution-Advanced )是第三代合作 伙伴计划 ( 3GPP, 3rd Generation Partnership Project )长期演进( LTE, Long Term Evolution ) 系统的进一步演进和增强系统。 在 LTE-A系统中, 为了满 足国际电信联盟对于第四代通信技术的峰值数据速率要求引入了载波聚合 ( CA, Carrier Aggregation )技术, 也称频谱聚合 ( Spectrum Aggregation ) 技术或者带宽扩展 ( Bandwidth Extension )技术。 载波聚合中, 两个或更多 的成员载波( Component Carrier ) 的频语被聚合在一起以得到更宽的传输带 宽, 各成员载波的频谱可以是相邻的连续频谱、 也可以是同一频带内的不相 邻频谱甚至是不同频带内的不连续频语。 LTE-A 用户设备 (UE , User Equipment )根据其能力和业务需求可以同时接入多个成员载波进行数据收 发。
现有载波聚合系统都是同一个基站( eNB , Evolved NodeB )下的载波进 行聚合, 或者有理想回传(Backhaul )的宏 (Macro ) 小区和微(Pico ) 小区 下的载波聚合, 比如宏小区和微小区通过光纤连接(此时微小区也可以是无 线射频头), 这样多个载波间可以采用联合调度, 即 eNB在调度聚合载波中 的一个载波时, 也知道另一个载波上的调度情况。
在后续演进的 LTE系统中,会引入基站间的载波聚合, 此时基站间是非 理想回传, 因此基站间无法实时传送数据。 如图 1所示的宏微小区耦合的场 景下, 部署在频率 fl 的宏小区主要提供系统信息, 无线链路监测和移动性 管理, 以保证业务的连续性; 同时为了保证语音业务服务的连续性, 对半持 续调度业务通常也由宏小区服务。 部署在频率 f2 的在宏小区的覆盖范围内 的多个微小区主要提供高数据速率业务的传输, 上述宏小区和微小区, 还有 微小区之间都是非理解回传。
调度请求( SR, Scheduling Request )信息用于 UE向基站请求发送上行 数据的资源。现有 CA系统中, SR信息只发送在上行主载波上。在上述 eNB 间的 CA 系统中, 若 SR信息的传输仍采用现有机制, 则当宏小区收到 SR 信息而获知 UE需要传输上行数据时, 需要再通过 X2接口通知 Pico为 UE 进行上行数据的调度。 由于基站间无法实时传送数据, 则会延迟上行数据得 到服务的时间, 从而降低用户的感受。 发明内容
本发明提出了传输调度请求的方法和装置、 用户设备以及基站, 旨在解 决在多流聚合 ( MSA, Multi-Stream Aggregation ) 场景下如何传输调度请求 的问题。
第一方面, 提出了一种传输调度请求的方法, 包括: 用户设备基于接收 到的调度请求配置, 确定用于传输调度请求信息的物理上行控制信道资源, 其中所述调度请求信息用于所述用户设备向基站请求上行资源; 所述用户设 备在确定的所述物理上行控制信道资源上传输所述调度请求信息。
结合第一方面, 在第一方面的第一种实现方式中, 所述用户设备基于接 收到的调度请求配置,确定用于传输调度请求信息的物理上行控制信道资源 包括: 当所述调度请求配置包括多个指示物理上行控制信道的参数, 所述用 户设备根据所述参数确定传输调度请求信息的物理上行控制信道, 其中所述 多个指示物理上行控制信道的参数分别指示对应不同基站的调度请求信息; 所述用户设备在确定的所述物理上行控制信道资源上传输所述调度请求信 息包括: 所述用户设备在所述物理上行控制信道上传输向对应基站请求上行 资源的调度请求信息。
结合第一方面及其上述实现方式, 在第一方面的第二种实现方式中, 当 所述多个指示物理上行控制信道的参数包括第一物理上行控制信道的参数 和第二物理上行控制信道的参数, 其中所述第一物理上行控制信道的参数用 于指示传输向第一基站请求上行资源的调度奇求信息的物理上行控制信道, 所述第二物理上行控制信道的参数用于指示传输向第二基站请求上行资源 的调度请求信息的物理上行控制信道; 所述用户设备在所述物理上行控制信 道上传输向对应基站请求上行资源的调度请求信息包括: 所述用户设备在所 述第一物理上行控制信道的参数指示的物理上行控制信道上传输向第一基 站请求上行资源的调度请求信息, 在所述第二物理上行控制信道的参数指示 的物理上行控制信道上传输向第二基站请求上行资源的调度请求信息。 结合第一方面及其上述实现方式, 在第一方面的第三种实现方式中, 所 述用户设备基于接收到的调度请求配置, 确定用于传输调度请求信息的物理 上行控制信道资源包括: 当所述调度请求配置包括指示调度请求信息的传输 周期和子帧偏移的参数, 用户设备根据所述指示调度请求信息的传输周期和 子帧偏移的参数确定传输向不同基站请求上行资源的调度请求信息的子帧; 所述用户设备在确定的所述物理上行控制信道资源上传输所述调度请求信 息包括: 所述用户设备在确定的子帧上传输向对应的基站请求上行资源的调 度请求信息。
结合第一方面及其上述实现方式, 在第一方面的第四种实现方式中, 所 述用户设备在确定的子帧上传输向对应的基站请求上行资源的调度请求信 息包括: 所述用户设备在所述子帧中的偶数位置上的子帧上传输向第一基站 请求上行资源的调度请求信息, 所述用户设备在所述子帧中奇数位置上的子 帧上传输向第二基站请求上行资源的调度请求信息。
结合第一方面及其上述实现方式, 在第一方面的第五种实现方式中, 所 述用户设备基于接收到的调度请求配置, 确定用于传输调度请求信息的物理 上行控制信道资源包括: 当所述调度请求配置包括多个调度请求子配置, 其 中每个所述调度请求子配置包括指示请求对应的基站的上行资源的调度请 求信息的传输周期和子帧偏移的参数; 所述用户设备根据所述指示请求对应 的基站的上行资源的调度请求信息的传输周期和子帧偏移的参数, 确定用于 传输请求对应的基站的上行资源的调度请求信息的子帧; 所述用户设备在确 定的所述物理上行控制信道资源上传输所述调度请求信息包括: 所述用户设 备在所述子帧上传输请求对应的基站的上行资源的调度请求信息。
结合第一方面及其上述实现方式, 在第一方面的第六种实现方式中, 所 述用户设备基于接收到的调度请求配置, 确定用于传输调度请求信息的物理 上行控制信道资源还包括: 当每个所述调度请求子配置还包括指示物理上行 控制信道的参数, 所述用户设备还根据所述指示物理上行控制信道的参数确 定传输调度请求信息的物理上行控制信道; 所述用户设备在确定的所述物理 上行控制信道资源上传输所述调度请求信息包括: 所述用户设备在所述子帧 和所述物理上行控制信道上传输请求对应的基站的上行资源的调度请求信 息。 结合第一方面及其上述实现方式, 在第一方面的第七种实现方式中, 在 所述用户设备在确定的所述物理上行控制信道资源上传输所述调度请求信 息之前, 还包括: 所述用户设备确定待传输的调度请求信息; 所述用户设备 为所述待传输的调度请求信息设置信息比特, 所述信息比特用于指示所述调 度请求信息请求对应的基站的上行资源。
结合第一方面及其上述实现方式, 在第一方面的第八种实现方式中, 若 待传输的调度请求信息用于向第一基站请求上行资源, 则所述待传输的调度 请求信息对应的信息比特为 0; 若待传输的调度请求信息用于向第二基站请 求上行资源, 则所述待传输的调度请求信息对应的信息比特为 1 ; 或者, 若 待传输的调度请求信息用于向第一基站请求上行资源, 则所述待传输的调度 请求信息对应的信息比特为 10; 若待传输的调度请求信息用于向第二基站请 求上行资源, 则所述待传输的调度请求信息对应的信息比特为 01; 若待传输 的调度请求信息用于同时向第一基站和第二基站请求上行资源, 则所述待传 输的调度请求信息对应的信息比特为 11。
结合第一方面及其上述实现方式, 在第一方面的第九种实现方式中, 所 述用户设备确定待传输的调度请求信息进一步包括: 若待传输的调度请求信 息包括多个用于向不同基站请求上行资源的调度请求信息, 则所述用户设备 根据预设的优先级确定所述调度请求信息为优先级最高的调度请求信息。
结合第一方面及其上述实现方式, 在第一方面的第十种实现方式中, 所 述预设的优先级是载波的优先级、 高层通过半静态信令通知的优先级、 或者 基站优先级。
结合第一方面及其上述实现方式, 在第一方面的第十一种实现方式中, 所述物理上行控制信道资源为宏基站对应的上行载波上的物理上行控制信 道资源。
第二方面, 提出了一种传输调度请求的传输方法, 包括: 基站基于调度 请求配置确定用户设备传输调度请求信息的物理上行控制信道资源; 所述基 站在所述物理上行控制信道资源上检测所述调度请求信息。
结合第二方面, 在第二方面的第一种实现方式中, 若所述调度请求配置 包括多个指示物理上行控制信道的参数,每个所述参数用于指示用户设备传 输向对应的基站请求上行资源的调度请求信息的物理上行控制信道; 所述基 站基于调度请求配置确定用户设备传输调度请求信息的物理上行控制信道 资源包括: 所述基站基于所述指示物理上行控制信道的参数确定用户设备传 输的向不同基站请求上行资源的调度请求信息的物理上行控制信道; 所述基 站在所述物理上行控制信道资源上检测所述调度请求信息包括: 所述基站在 所述物理上行控制信道上检测所述调度请求信息。
结合第二方面及其上述实现方式, 在第二方面的第二种实现方式中, 若 所述调度请求配置包括指示调度请求信息的传输周期和子帧偏移的参数; 所 述基站基于调度请求配置确定用户设备传输调度请求信息的物理上行控制 信道资源包括: 所述基站基于所述指示调度请求信息的传输周期和子帧偏移 的参数确定用户设备传输调度请求信息的子帧; 所述基站在所述物理上行控 制信道资源上检测所述调度请求信息包括: 所述基站在所述子帧上检测所述 调度请求信息。
结合第二方面及其上述实现方式, 在第二方面的第三种实现方式中, 所 述基站基于所述指示调度请求信息的传输周期和子帧偏移的参数确定用户 设备传输调度请求信息的子帧包括: 所述基站在所述子帧中的奇数或偶数位 置上的子帧上接收调度请求信息。
结合第二方面及其上述实现方式, 在第二方面的第四种实现方式中, 若 所述调度请求配置包括多个调度请求子配置, 其中每个所述调度请求子配置 用于配置用户设备请求对应的基站的上行资源的调度请求信息; 所述基站基 于调度请求配置确定用户设备传输调度请求信息的物理上行控制信道资源 包括: 所述基站基于所述多个调度请求子配置确定用户设备传输的向自己请 求上行资源的调度请求信息的物理上行控制信道资源; 所述基站在所述物理 上行控制信道资源上检测所述调度请求信息包括: 所述基站在所述调度请求 子配置指示的物理上行控制信道资源上检测所述调度请求信息。
结合第二方面及其上述实现方式, 在第二方面的第五种实现方式中, 所 述基站在所述物理上行控制信道资源上检测所述调度请求信息还包括: 所述 基站解析所述调度请求信息的信息比特, 其中所述信息比特用于指示所述调 度请求信息请求对应的基站的上行资源; 所述基站根据所述信息比特确定所 述 i周度请求信息是否是用户设备传输给自己的调度请求信息。
结合第二方面及其上述实现方式, 在第二方面的第六种实现方式中, 若 解析的信息比特为 0, 则所述调度请求信息用于向第一基站请求上行资源; 若解析的调度请求信息的信息比特为 1 , 则所述调度请求信息用于向第二基 站请求上行资源; 或者若解析的信息比特为 10则所述调度请求信息用于向第 一基站请求上行资源; 若解析的信息比特为 01, 则所述调度请求信息用于向 第二基站请求上行资源; 若解析的信息比特为 11 , 则所述调度请求信息用于 同时向第一基站和第二基站请求上行资源。
结合第二方面及其上述实现方式, 在第二方面的第七种实现方式中, 若 所述基站是宏基站, 则在所述基站基于调度请求配置确定用户设备传输调度 请求信息的物理上行控制信道资源之前, 还包括: 所述基站通过高层信令给 用户设备或微基站发送调度请求配置。
结合第二方面及其上述实现方式, 在第二方面的第八种实现方式中, 若 所述基站是微基站, 则在所述基站基于调度请求配置确定用户设备传输调度 请求信息的物理上行控制信道资源之前, 还包括: 所述基站接收宏基站发送 的调度请求配置。
第三方面, 提出了一种传输调度请求的装置, 包括: 接收单元, 用于接 收调度请求配置, 第一确定单元, 用于基于所述接收单元接收到的所述调度 请求配置, 确定用于传输调度请求信息的物理上行控制信道资源, 其中所述 调度请求信息用于用户设备向基站请求上行资源; 传输单元, 用于在确定的 所述物理上行控制信道资源上传输所述调度请求信息。
结合第三方面, 在第三方面的第一种实现方式中, 所述第一确定单元具 体用于: 当所述调度请求配置包括多个指示物理上行控制信道的参数, 根据 所述参数确定传输调度请求信息的物理上行控制信道, 其中所述多个指示物 理上行控制信道的参数分别指示对应不同基站的调度请求信息; 所述传输单 元具体用于: 在所述物理上行控制信道上传输向对应基站请求上行资源的调 度请求信息。
结合第三方面及其上述实现方式, 在第三方面的第二种实现方式中, 所 述传输单元进一步用于: 当所述多个指示物理上行控制信道的参数包括第一 物理上行控制信道的参数和第二物理上行控制信道的参数, 在所述第一物理 上行控制信道的参数指示的物理上行控制信道上传输向第一基站请求上行 资源的调度请求信息,在所述第二物理上行控制信道的参数指示的物理上行 控制信道上传输向第二基站请求上行资源的调度请求信息, 其中所述第一物 理上行控制信道的参数用于指示传输向第一基站请求上行资源的调度请求 信息的物理上行控制信道, 所述第二物理上行控制信道的参数用于指示传输 向第二基站请求上行资源的调度请求信息的物理上行控制信道。
结合第三方面及其上述实现方式, 在第三方面的第三种实现方式中, 所 述第一确定单元具体用于: 当所述调度请求配置包括指示调度请求信息的传 输周期和子帧偏移的参数,根据所述指示调度请求信息的传输周期和子帧偏 移的参数确定传输向不同基站请求上行资源的调度请求信息的子帧; 所述传 输单元具体用于: 在确定的子帧上传输向对应的基站请求上行资源的调度请 求信息。
结合第三方面及其上述实现方式, 在第三方面的第四种实现方式中, 所 述传输单元进一步用于: 在所述子帧中的偶数位置上的子帧上传输向第一基 站请求上行资源的调度请求信息, 在所述子帧中奇数位置上的子帧上传输向 第二基站请求上行资源的调度请求信息。
结合第三方面及其上述实现方式, 在第三方面的第五种实现方式中, 所述第一确定单元具体用于: 当所述调度请求配置包括多个调度请求子配 置, 根据所述指示请求对应的基站的上行资源的调度请求信息的传输周期和 子帧偏移的参数, 确定用于传输请求对应的基站的上行资源的调度请求信息 的子帧, 其中每个所述调度奇求子配置包括指示请求对应的基站的上行资源 的调度请求信息的传输周期和子帧偏移的参数; 所述传输单元具体用于: 在 所述子帧上传输请求对应的基站的上行资源的调度请求信息。
结合第三方面及其上述实现方式, 在第三方面的第六种实现方式中, 所 述第一确定单元还用于: 当每个所述调度请求子配置还包括指示物理上行控 制信道的参数,根据所述指示物理上行控制信道的参数确定传输调度请求信 息的物理上行控制信道; 所述传输单元还用于: 在所述子帧和所述物理上行 控制信道上传输请求对应的基站的上行资源的调度请求信息。
结合第三方面及其上述实现方式, 在第三方面的第七种实现方式中, 所 述第一确定单元还用于: 在所述传输单元在确定的所述物理上行控制信道资 源上传输所述调度请求信息之前, 确定待传输的调度请求信息并为所述待传 输的调度请求信息设置信息比特, 所述信息比特用于指示所述调度请求信息 请求对应的基站的上行资源。
结合第三方面及其上述实现方式, 在第三方面的第八种实现方式中, 若 待传输的调度请求信息用于向第一基站请求上行资源, 则所述待传输的调度 请求信息对应的信息比特为 0; 若待传输的调度请求信息用于向第二基站请 求上行资源, 则所述待传输的调度请求信息对应的信息比特为 1 ; 或者, 若 待传输的调度请求信息用于向第一基站请求上行资源, 则所述待传输的调度 请求信息对应的信息比特为 10; 若待传输的调度请求信息用于向第二基站请 求上行资源, 则所述待传输的调度请求信息对应的信息比特为 01; 若待传输 的调度请求信息用于同时向第一基站和第二基站请求上行资源, 则所述待传 输的调度请求信息对应的信息比特为 11。
结合第三方面及其上述实现方式, 在第三方面的第九种实现方式中, 所 述第一确定单元进一步用于: 若待传输的调度请求信息包括多个用于向不同 基站请求上行资源的调度请求信息, 则根据预设的优先级确定所述调度请求 信息为优先级最高的调度请求信息, 其中所述预设的优先级是载波的优先 级、 高层通过半静态信令通知的优先级、 或者基站优先级。
结合第三方面及其上述实现方式, 在第三方面的第十种实现方式中, 所 述物理上行控制信道资源为宏基站对应的上行载波上的物理上行控制信道 资源。
第四方面,提出了一种传输调度请求的传输装置, 包括: 第二确定单元, 用于基于调度请求配置确定用户设备传输调度请求信息的物理上行控制信 道资源; 检测单元, 用于在所述物理上行控制信道资源上检测所述调度请求 信息。
结合第四方面, 在第四方面的第一种实现方式中, 若所述调度请求配置 包括多个指示物理上行控制信道的参数,每个所述参数用于指示用户设备传 输向对应的基站请求上行资源的调度请求信息的物理上行控制信道; 所述第 二确定单元具体用于: 基于所述指示物理上行控制信道的参数确定用户设备 传输的向不同基站请求上行资源的调度请求信息的物理上行控制信道; 所述 检测单元具体用于: 在所述物理上行控制信道上检测所述调度请求信息。
结合第四方面及其上述实现方式, 在第四方面的第二种实现方式中, 若 所述调度请求配置包括指示调度请求信息的传输周期和子帧偏移的参数; 所 述第二确定单元还用于: 基于所述指示调度请求信息的传输周期和子帧偏移 的参数确定用户设备传输调度请求信息的子帧; 所述检测单元还用于: 在所 述子帧上检测所述调度请求信息。
结合第四方面及其上述实现方式, 在第四方面的第三种实现方式中, 所 述第二确定单元进一步用于: 在所述子帧中的奇数或偶数位置上的子帧上接 收调度请求信息。
结合第四方面及其上述实现方式, 在第四方面的第四种实现方式中, 若 所述调度请求配置包括多个调度请求子配置, 其中每个所述调度请求子配置 用于配置用户设备请求对应的基站的上行资源的调度请求信息; 所述第二确 定单元具体用于: 基于所述多个调度请求子配置确定用户设备传输的向自己 请求上行资源的调度请求信息的物理上行控制信道资源; 所述检测单元具体 用于: 在所述调度请求子配置指示的物理上行控制信道资源上检测所述调度 请求信息。
结合第四方面及其上述实现方式, 在第四方面的第五种实现方式中, 所 述检测单元进一步用于: 解析所述调度请求信息的信息比特, 其中所述信息 比特用于指示所述调度请求信息请求对应的基站的上行资源; 根据所述信息 比特确定所述调度请求信息是否是用户设备传输给自己的调度请求信息。
结合第四方面及其上述实现方式, 在第四方面的第六种实现方式中, 若 解析的信息比特为 0, 则所述调度请求信息用于向第一基站请求上行资源; 若解析的调度请求信息的信息比特为 1 , 则所述调度请求信息用于向第二基 站请求上行资源; 或者若解析的信息比特为 10则所述调度请求信息用于向第 一基站请求上行资源; 若解析的信息比特为 01, 则所述调度请求信息用于向 第二基站请求上行资源; 若解析的信息比特为 11, 则所述调度请求信息用于 同时向第一基站和第二基站请求上行资源。
结合第四方面及其上述实现方式, 在第四方面的第七种实现方式中, 还 包括: 收发单元, 用于: 若所述装置配置在宏基站中, 则在所述第二确定单 元基于调度请求配置确定用户设备传输调度请求信息的物理上行控制信道 资源之前, 通过高层信令给用户设备或微基站发送调度请求配置; 或者若所 述装置配置在微基站中, 则在所述第二确定单元基于调度请求配置确定用户 设备传输调度请求信息的物理上行控制信道资源之前,接收宏基站发送的调 度请求配置。
根据第五方面, 提出了一种用户设备, 包括: 接收器, 用于接收调度请 求配置; 处理器, 用于基于所述接收器接收到的所述调度请求配置, 确定用 于传输调度请求信息的物理上行控制信道资源, 其中所述调度请求信息用于 用户设备向基站请求上行资源; 发送器, 用于在确定的所述物理上行控制信 道资源上传输所述调度请求信息。 结合第五方面, 在第五方面的第一种实现方式中, 所述处理器用于: 当 所述调度请求配置包括多个指示物理上行控制信道的参数, 根据所述参数确 定传输调度请求信息的物理上行控制信道, 其中所述多个指示物理上行控制 信道的参数分别指示对应不同基站的调度请求信息; 所述发送器用于: 在所 述物理上行控制信道上传输向对应基站请求上行资源的调度请求信息。
结合第五方面及其上述实现方式, 在第五方面的第二种实现方式中, 所 述处理器用于: 当所述调度请求配置包括指示调度请求信息的传输周期和子 帧偏移的参数,根据所述指示调度请求信息的传输周期和子帧偏移的参数确 定传输向不同基站请求上行资源的调度请求信息的子帧; 所述发送器用于: 在确定的子帧上传输向对应的基站请求上行资源的调度请求信息。
结合第五方面及其上述实现方式, 在第五方面的第三种实现方式中, 所 述处理器用于: 当所述调度请求配置包括多个调度请求子配置, 根据所述指 示请求对应的基站的上行资源的调度请求信息的传输周期和子帧偏移的参 数, 确定用于传输请求对应的基站的上行资源的调度请求信息的子帧, 其中 每个所述调度请求子配置包括指示请求对应的基站的上行资源的调度请求 信息的传输周期和子帧偏移的参数; 所述发送器用于: 在所述子帧上传输请 求对应的基站的上行资源的调度请求信息。
结合第五方面及其上述实现方式, 在第五方面的第四种实现方式中, 所 述处理器还用于: 当每个所述调度请求子配置还包括指示物理上行控制信道 的参数,根据所述指示物理上行控制信道的参数确定传输调度请求信息的物 理上行控制信道; 所述发送器还用于: 在所述子帧和所述物理上行控制信道 上传输请求对应的基站的上行资源的调度请求信息。
结合第五方面及其上述实现方式, 在第五方面的第五种实现方式中, 所 述处理器还用于: 在所述传输单元在确定的所述物理上行控制信道资源上传 输所述调度请求信息之前, 确定待传输的调度请求信息并为所述待传输的调 度请求信息设置信息比特, 所述信息比特用于指示所述调度请求信息请求对 应的基站的上行资源。
第六方面, 提出了一种基站, 包括: 发送器, 用于向用户设备发送调度 请求配置; 处理器, 用于基于所述调度请求配置确定所述用户设备传输调度 请求信息的物理上行控制信道资源; 接收器, 用于在确定的所述物理上行控 制信道资源上接收用户设备传输的所述调度请求信息。 结合第六方面, 在第六方面的第一种实现方式中, 若所述调度请求配置 包括多个指示物理上行控制信道的参数,每个所述参数用于指示用户设备传 输向对应的基站请求上行资源的调度请求信息的物理上行控制信道; 所述处 理器用于: 基于所述指示物理上行控制信道的参数确定用户设备传输的向不 同基站请求上行资源的调度请求信息的物理上行控制信道; 所述接收器用 于: 在所述物理上行控制信道上检测所述调度请求信息。
结合第六方面及其上述实现方式, 在第六方面的第二种实现方式中, 若 所述调度请求配置包括指示调度请求信息的传输周期和子帧偏移的参数; 所 述处理器还用于: 基于所述指示调度请求信息的传输周期和子帧偏移的参数 确定用户设备传输调度请求信息的子帧; 所述接收器还用于: 在所述子帧上 检测所述调度请求信息。
结合第六方面及其上述实现方式, 在第六方面的第三种实现方式中, 所 述处理器进一步用于: 在所述子帧中的奇数或偶数位置上的子帧上接收调度 请求信息。
结合第六方面及其上述实现方式, 在第六方面的第四种实现方式中, 若 所述调度请求配置包括多个调度请求子配置, 其中每个所述调度请求子配置 用于配置用户设备请求对应的基站的上行资源的调度请求信息; 所述处理器 用于: 基于所述多个调度请求子配置确定用户设备传输的向自己请求上行资 源的调度请求信息的物理上行控制信道资源; 所述接收器用于: 在所述调度 请求子配置指示的物理上行控制信道资源上检测所述调度请求信息。
结合第六方面及其上述实现方式, 在第六方面的第五种实现方式中, 所 述处理器还用于: 解析所述调度请求信息的信息比特, 其中所述信息比特用 于指示所述调度请求信息请求对应的基站的上行资源; 根据所述信息比特确 定所述调度请求信息是否是用户设备传输给自己的调度请求信息。
本发明实施例能够通过调度请求配置(例如包括时域配置、 频域配置及 其组合配置)、调度请求信息的内容标识及其组合等解决在 MSA场景下如何 传输调度请求信息的问题, 从而避免延迟上行数据得到服务的时间, 提高用 户感受。 附图说明
为了更清楚地说明本发明实施例的技术方案, 下面将对本发明实施例中 所需要使用的附图作筒单地介绍, 显而易见地, 下面所描述的附图仅仅是本 发明的一些实施例, 对于本领域普通技术人员来讲, 在不付出创造性劳动的 前提下, 还可以根据这些附图获得其他的附图。
图 1是本发明实施例的宏微小区耦合的场景的示意图。
图 2是根据本发明实施例的传输调度请求的方法的流程图。
图 3是根据本发明另一实施例的传输调度请求的方法的流程图。
图 4是根据本发明实施例的传输调度请求的装置的结构示意图。
图 5是根据本发明实施例的用户设备的结构示意图。
图 6是根据本发明另一实施例的传输调度请求的装置的结构示意图。 图 7是根据本发明另一实施例的传输调度请求的装置的结构示意图。 图 8是根据本发明实施例的基站的结构示意图。 具体实施方式
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行 清楚、 完整地描述, 显然, 所描述的实施例是本发明的一部分实施例, 而不 是全部实施例。 基于本发明中的实施例, 本领域普通技术人员在没有做出创 造性劳动的前提下所获得的所有其他实施例, 都应属于本发明保护的范围。
本发明的技术方案, 可以应用于各种通信系统, 例如: 全球移动通讯系 统 (GSM, Global System of Mobile communication ), 码分多址(CDMA, Code Division Multiple Access ) 系统, 宽带码分多址( WCDMA, Wideband Code Division Multiple Access Wireless ), 通用分组无线业务 ( GPRS, General Packet Radio Service ), LTE等。
UE也可称之为移动终端 (Mobile Terminal ), 移动台 ( Mobile Station ) 等, 可以经无线接入网 (例如, RAN, Radio Access Network )与一个或多个 核心网进行通信。 用户设备与无线接入网交换语音和 /或数据。
基站,可以是 GSM或 CDMA中的基站( BTS, Base Transceiver Station ), 也可以是 WCDMA中的基站( Node B ),还可以是 LTE中的演进型基站( eNB 或 e-NodeB, evolutional Node B ), 本发明并不限定, 但为描述方便, 下述实 施例以 Node B为例进行说明。 另外, 一个基站可能支持 /管理一个或多个小 区 (cell ), UE需要和网络通信时, 它将选择一个小区发起网络接入。
在 MSA场景中, 宏小区和微小区均具有接收 SA信息的能力。 当 UE 发送 SA信息后,载波聚合系统中的基站只要识别出发送给自己的 SA信息, 那么 SA信息就不需要通过宏基站转发, 由此可以同时避免延迟上行数据得 到服务的时间, 提高用户感受。
以下将结合附图, 详细描述根据本发明实施例的传输调度请求的方法的 流程。 如图 2所示, 包括如下步骤。
21 , 基于接收到的调度请求配置, 用户设备确定用于传输调度请求信息 的物理上行控制信道资源, 其中所述调度请求信息用于所述用户设备向基站 请求上行资源。
22, 用户设备在确定的所述物理上行控制信道资源上传输所述调度请求 信息。
这里, 物理上行控制信道资源为宏基站对应的上行载波上的物理上行控 制信道资源。
通过调度请求配置指示的频域、 时域及其组合等, 用户设备配置用于传 输调度请求信息的上行传输资源, 例如子帧、 信道等。
在一种实施方式中, 当调度请求配置包括多个指示物理上行控制信道的 参数, 用户设备根据所述参数确定传输调度请求信息的物理上行控制信道, 于是用户设备在所述物理上行控制信道上传输向对应基站请求上行资源的 调度请求信息。 也就是, 当调度请求配置指示了频域配置时, 用户设备可以 进行频域配置以在物理上行控制信道资源上传输调度请求信息。
其中, 以系统中仅存在两个基站(例如 , 一个宏基站和一个微基站) 为 例, 当所述多个指示物理上行控制信道的参数包括第一物理上行控制信道的 参数和第二物理上行控制信道的参数, 其中所述第一物理上行控制信道的参 数用于指示传输向第一基站请求上行资源的调度请求信息的物理上行控制 信道, 所述第二物理上行控制信道的参数用于指示传输向第二基站请求上行 资源的调度请求信息的物理上行控制信道。 那么, 用户设备在所述第一物理 上行控制信道的参数指示的物理上行控制信道上传输向第一基站请求上行 资源的调度请求信息,在所述第二物理上行控制信道的参数指示的物理上行 控制信道上传输向第二基站请求上行资源的调度请求信息。
在另一实施方式中, 当所述调度请求配置包括指示调度请求信息的传输 周期和子帧偏移的参数, 用户设备根据所述指示调度请求信息的传输周期和 子帧偏移的参数确定传输向不同基站请求上行资源的调度请求信息的子帧。 用户设备在确定的子帧上传输向对应的基站请求上行资源的调度请求信息。 也就是, 当调度请求配置指示了时域配置时, 用户设备可以进行时域配置以 在物理上行控制信道资源上传输调度请求信息。
其中, 以系统中仅存在两个基站(例如, 一个宏基站和一个微基站) 为 例, 当所述调度请求配置包括指示调度请求信息的传输周期和子帧偏移的参 数, 用户设备根据所述指示调度请求信息的传输周期和子帧偏移的参数确定 传输向不同基站请求上行资源的调度请求信息的子帧。 例如, 用户设备在所 述子帧中的偶数位置上的子帧上传输向第一基站请求上行资源的调度请求 信息, 所述用户设备在所述子帧中奇数位置上的子帧上传输向第二基站请求 上行资源的调度请求信息。
或者, 在另一实施方式中, 当所述调度请求配置包括多个调度请求子配 置, 其中每个所述调度请求子配置包括指示请求对应的基站的上行资源的调 度请求信息的传输周期和子帧偏移的参数; 于是用户设备根据所述指示请求 对应的基站的上行资源的调度请求信息的传输周期和子帧偏移的参数, 确定 用于传输请求对应的基站的上行资源的调度请求信息的子帧。 用户设备在所 述子帧上传输请求对应的基站的上行资源的调度请求信息。
此外, 可选地, 每个所述调度请求子配置还包括指示物理上行控制信道 的参数, 于是用户设备可以根据该参数确定传输调度请求信息的物理上行控 制信道。 用户设备在所述子帧和所述物理上行控制信道上传输请求对应的基 站的上行资源的调度请求信息。
可见, 在该实施方式中, 通过多个调度请求子配置为用户设备指示时域 配置或者时域与频率配置时, 用户设备可以进行时域配置以在物理上行控制 信道资源上传输调度请求信息, 或者用户设备可以进行时域与频域配置以在 物理上行控制信道资源上传输调度请求信息。
在用户设备根据基站指示的调度请求配置进行上行传输资源配置的情 况下, 用户设备能够将调度奇求信息传送给基站且基站能够正确地接收到调 度请求信息。 此外, 也可以用户设备标记出将发送给不同基站的调度请求信 息, 这样当基站接收到用户设备发送的调度请求信息之后, 通过解析出标记 便可确定上述调度请求信息是否是发送给自己的。
具体而言, 用户设备确定待传输的调度请求信息, 然后为所述待传输的 调度请求信息设置信息比特, 所述信息比特用于指示所述调度请求信息请求 对应的基站的上行资源, 用户设备再在确定的所述物理上行控制信道资源上 传输所述调度请求信息。
以系统中仅存在两个基站(例如, 一个宏基站和一个微基站)为例, 若 待传输的调度请求信息用于向第一基站请求上行资源, 则所述待传输的调度 请求信息对应的信息比特为 0; 若待传输的调度请求信息用于向第二基站请 求上行资源, 则所述待传输的调度请求信息对应的信息比特为 1。 或者, 若 待传输的调度请求信息用于向第一基站请求上行资源, 则所述待传输的调度 请求信息对应的信息比特为 10; 若待传输的调度请求信息用于向第二基站请 求上行资源, 则所述待传输的调度请求信息对应的信息比特为 01; 若待传输 的调度请求信息用于同时向第一基站和第二基站请求上行资源, 则所述待传 输的调度请求信息对应的信息比特为 11。
若待传输的调度请求信息包括多个用于向不同基站请求上行资源的调 度请求信息, 则用户设备根据预设的优先级确定优先级最高的调度请求信 息, 传输该优先级最高的调度请求信息, 丢弃其他调度请求信息。 所述预设 的优先级是载波的优先级、 高层通过半静态信令通知的优先级、 或者基站优 先级。 当预设的优先级为载波的优先级时, 例如以该载波的优先级从高到低 的顺序作为载波索引递增的顺序, 即载波索引小的载波具有较高优先级。 或 者, 当预设的优先级为基站优先级, 则基站优先级为宏基站的优先级高于微 基站的优先级。
由上可知, 本发明实施例能够通过调度请求配置 (例如包括时域配置、 频域配置及其组合配置)、 调度请求信息的内容标识及其组合等解决在 MSA 场景下如何传输调度请求信息的问题, 从而避免延迟上行数据得到服务的时 间, 提高用户感受。
以下结合图 3详细描述基站侧的传输调度请求的传输方法, 由于基站侧 的操作与用户设备侧的操作是相互对应的, 在此省略重复的内容。 如图 3所 示, 方法包括如下步骤。
31 ,基站基于调度请求配置确定用户设备传输调度请求信息的物理上行 控制信道资源;
32, 基站在所述物理上行控制信道资源上检测所述调度请求信息。 例如, 若基站为宏基站, 则宏基站通过高层信令给用户设备发送调度请 求配置, 然后基于所述调度请求配置确定用户设备传输调度请求信息的物理 上行控制信道资源,再在所述物理上行控制信道资源上检测所述调度请求信 息。
可选地, 若基站为微基站, 则微基站具有接收在宏基站上行载波上发送 的物理上行控制信道的能力。因此,微基站接收宏基站发送的调度请求配置, 然后基于所述调度请求配置确定用户设备传输调度请求信息的物理上行控 制信道资源, 再在所述物理上行控制信道资源上检测所述调度请求信息。 进 一步地, 微基站在所述物理上行控制信道资源上检测所述调度请求信息, 其 中所述物理上行控制信道资源指示的物理上行控制信道位于宏基站对应的 上行载波上。
以下的描述不再区分宏基站和微基站, 其上执行步骤 31和步骤 32如下 所述。
在第一实施方式中, 当调度请求配置包括多个指示物理上行控制信道的 参数, 且每个所述参数用于指示用户设备传输向对应的基站请求上行资源的 调度请求信息的物理上行控制信道时, 则基站基于所述指示物理上行控制信 道的参数确定用户设备传输的向不同基站请求上行资源的调度请求信息的 物理上行控制信道, 再在所述物理上行控制信道上检测所述调度请求信息。
在第二实施方式中, 当所述调度请求配置包括指示调度请求信息的传输 周期和子帧偏移的参数的情况下,基站基于所述指示调度请求信息的传输周 期和子帧偏移的参数确定用户设备传输调度请求信息的子帧, 再在所述子帧 上检测所述调度请求信息。 例如, 以系统中仅存在两个基站(例如, 一个宏 基站和一个微基站)为例, 基站可以在子帧中的奇数或偶数位置上的子帧上 接收调度请求信息。
在第三实施方式中, 当所述调度请求配置包括多个调度请求子配置, 且 每个所述调度请求子配置用于配置用户设备请求对应的基站的上行资源的 调度请求信息时,基站基于所述多个调度请求子配置确定用户设备传输的向 自己请求上行资源的调度请求信息的物理上行控制信道资源, 再在所述调度 请求子配置指示的物理上行控制信道资源上检测所述调度请求信息。
例如, 基站解析所述调度请求信息的信息比特, 其中所述信息比特用于 指示所述调度请求信息请求对应的基站的上行资源。 于是, 基站根据所述信 息比特确定所述调度请求信息是否是用户设备传输给自己的调度请求信息。 以系统中仅存在两个基站(例如, 一个宏基站和一个微基站)为例, 若解析 的信息比特为 0, 则所述调度请求信息用于向第一基站请求上行资源; 若解 析的调度请求信息的信息比特为 1 , 则所述调度请求信息用于向第二基站请 求上行资源; 或者若解析的信息比特为 10则所述调度请求信息用于向第一基 站请求上行资源; 若解析的信息比特为 01 , 则所述调度请求信息用于向第二 基站请求上行资源; 若解析的信息比特为 11 , 则所述调度请求信息用于同时 向第一基站和第二基站请求上行资源。
由上可知, 本发明实施例能够通过调度请求配置 (例如包括时域配置、 频域配置及其组合配置)、 调度请求信息的内容标识及其组合等解决在 MSA 场景下如何传输调度请求信息的问题, 从而避免延迟上行数据得到服务的时 间, 提高用户感受。
以上三个实施方式可以相互结合, 即将频域配置、 时域配置和调度请求 信息的内容标识进行两两结合或全部结合, 结合得到的实施方式也可以用于 传输调度请求信息。 下面将给出具体实施例, 以系统中仅存在两个基站(例 如, 一个宏基站和一个 T基站)为例, 详细描述如何设置调度请求配置, 以 便依据调度请求配置实现调度请求信息的传输。 可以理解, 以下提出的具体 实施例仅是示例性的, 本领域技术人员可以在理解了上述发明精神的基础上 得出其他的具体实施例。 具体实施例一:
步骤 1: 用户设备接收调度请求配置。
该步驟 1中, 用户设备接收基站通过高层信令通知的调度请求配置, 该 基站可以是宏基站。 该调度请求配置可以包括第一调度请求配置和第二调度 请求配置, 且第一调度请求配置用于配置请求第一基站上行资源的调度请求 信息, 第二调度请求配置用于配置请求第二基站上行资源的调度请求信息。 第一调度请求配置包括指示请求第一基站上行资源的调度请求信息的传输 周期和子帧偏移的参数, 用户设备根据该参数确定调度请求信息的传输周期 和子帧偏移,根据确定的传输周期和子帧偏移确定用于传输请求第一基站上 行资源的调度请求信息的子帧; 第二调度请求配置包括指示请求第二基站上 行资源的调度请求信息的传输周期和子帧偏移的参数, 用户设备根据该参数 确定调度请求信息的传输周期和子帧偏移,根据确定的传输周期和子帧偏移 确定用于传输请求第二基站上行资源的调度请求信息的子帧。 第一调度请求 配置还可以包括指示物理上行控制信道资源的参数, 该物理上行控制信道用 于传输请求第一基站上行资源的调度请求信息; 第二调度请求配置还可以包 括指示物理上行控制信道资源的参数, 该物理上行控制信道用于传输请求第 二基站上行资源的调度请求信息。 这里, 第一调度请求配置和第二调度请求 配置指示的物理上行控制信道资源可以相同也可以不同。
若第一调度请求配置和第二调度请求配置指示的物理上行控制信道资 源相同, 则该步驟 1中的调度请求配置指示在相同的物理上行控制信道及不 同的子帧分别传输请求第一基站上行资源的调度请求信息和请求第二基站 上行资源的调度请求信息。 若第一调度请求配置和第二调度请求配置指示的 物理上行控制信道资源不同, 则该步骤 1中的调度请求配置指示在不同的物 理上行控制信道及不同的子帧分别传输请求第一基站上行资源的调度请求 信息和请求第二基站上行资源的调度请求信息。
如上所述, 第一基站可以是宏基站, 第二基站可以是微基站。
步骤 2: 用户设备确定待传输的调度请求信息。
该步驟 2中, 用户设备确定待传输的调度请求信息。 用户设备首先根据 步骤 1中接收到的调度请求配置信息确定当前子帧是用于传输请求第一基站 上行资源的调度请求信息的子帧还是用于传输请求第二基站上行资源的调 度请求信息的子帧。 若当前子帧为传输请求第一基站上行资源的调度请求信 息的子帧, 且用户设备需要传输请求第一基站上行资源的调度请求信息, 则 该步骤 2确定的待传输的调度请求信息为 ^0) = 1, WO)为待传输的调制符号; 若当前子帧为传输请求第二基站上行资源的调度请求信息的子帧, 且用户设 备需要传输请求第二基站上行资源的调度请求信息, 则该步骤 2确定的待传 输的调度请求信息为 (0) = 1, d(0)为待传输的调制符号。
若根据步驟 1中的调度请求配置, 当前子帧待传输的调度请求信息包括 多个用于请求不同基站上行资源的调度请求信息, 则根据预设的优先级确定 优先级最高的调度请求信息, 传输该优先级最高的调度请求信息, 丟弃其他 调度请求信息。 预设的优先级可以为载波的优先级, 或高层通过半静态信令 通知的优先级, 或基站优先级。
步骤 3: 用户设备基于步骤 1中接收到的调度请求配置确定物理上行控制 信道资源, 该物理上行控制信道资源用于传输所述调度请求信息。
若步骤 1中的第一调度请求配置和第二调度请求配置中包括指示物理上 行控制信道资源的参数, 则步驟 3根据步骤 1中的调度请求配置中包括的指示 物理上行控制信道资源的参数获取物理上行控制信道资源。 若第一调度请求 配置和第二调度请求配置中不包括指示物理上行控制信道资源的参数, 则若 当前子帧为传输请求第一基站上行资源的调度请求信息的子帧, 则该步骤 3 根据第一调度请求配置中指示的请求第一基站上行资源的调度请求信息的 传输周期和子帧偏移的参数获取物理上行控制信道资源, 若当前子帧为传输 请求第二基站上行资源的调度请求信息的子帧, 则该步骤 3根据第二调度请 求配置中指示的请求第二基站上行资源的调度请求信息的传输周期和子帧 偏移的参数获取物理上行控制信道资源。
步骤 4: 用户设备在步骤 3确定的物理上行控制信道资源上传输调度请求 信息。
该步骤 4中, 用户设备在步骤 3确定的物理上行控制信道资源上将调度请 求信息发送给基站。 发送方法为现有技术, 此处不再赘述。
步骤 5: 基站对用户设备传输的调度请求信息进行检测。 该步骤 5又可包 括如下几个步骤:
步骤 5-1: 基站基于调度奇求配置确定用户设备传输调度请求信息的物 理上行控制信道资源。 该步驟 5-1中的基站可以是宏基站, 也可以是微基站。
若基站为宏基站, 则步骤 5-1进一步包括:
步骤 5-1-a: 基站通过高层信令给用户设备发送调度请求配置;
该步骤 5-1-a中,基站可通过无线资源控制( RRC, Radio Resource Control ) 信令给用户设备发送调度奇求配置, 该调度请求配置的相关信息与步骤 1一 致, 此处不再赘述。
步骤 5-1-b:基站基于调度请求配置确定用户设备传输调度请求信息的物 理上行控制信道资源;
若步骤 5-1-a中的第一调度请求配置和第二调度请求配置中包括指示物 理上行控制信道资源的参数, 则该步骤 5-1-b中, 基站根据步骤 1中的调度请 求配置中包括的指示物理上行控制信道资源的参数获取物理上行控制信道 资源。 若第一调度请求配置和第二调度请求配置中不包括指示物理上行控制 信道资源的参数, 则若当前子帧为用户设备传输请求第一基站上行资源的调 度请求信息的子帧, 则该步骤 5-1-b中,基站根据第一调度请求配置中指示的 请求第一基站上行资源的调度请求信息的传输周期和子帧偏移的参数获取 物理上行控制信道资源, 若当前子帧为用户设备传输请求第二基站上行资源 的调度请求信息的子帧, 则该步骤 5-1-b中,基站根据第二调度请求配置中指 示的请求第二基站上行资源的调度请求信息的传输周期和子帧偏移的参数 获取物理上行控制信道资源。
若该步骤 5-1中的基站为微基站, 则步骤 5-1进一步包括:
步骤 5-1-c: 基站接收宏基站发送的调度请求配置;
例如,基站接收宏基站通过 X2接口发送的调度请求配置, 该调度请求配 置的相关信息与步骤 1一致, 此处不再赘述。
步骤 5-1-d:基站基于步骤 5-1-c中接收到的调度请求配置确定用户设备传 输调度请求信息的物理上行控制信道资源。
该步骤 5-1-d与步骤 5-1-b—致, 此处不再赘述。
步骤 5-2: 基站在步骤 5-1得到的物理上行控制信道资源上检测调度请求 信息。
基站在步骤 5-1得到的物理上行控制信道资源上检测调度请求信息。 若 该步驟 5-2中的基站为微基站, 则该基站具有接收宏基站上行载波的能力, 由于, 该微基站具有接收在宏基站上行载波上发送的物理上行控制信道的能 力。 该步骤 5-2中的物理上行控制信道资源指示的物理上行控制信道位于宏 基站对应的上行载波上。
基站若在步骤 5-1得到的物理上行控制信道上检测到信息, 则说明用户 设备发送了调度请求信息。 并且, 根据如下方式进一步确定用户设备发送的 调度请求信息: 若当前子帧为传输请求第一基站上行资源的调度请求信息的 子帧, 则物理上行控制信道上检测到的调度请求信息为请求第一基站上行资 源的调度请求; 若当前子帧为传输请求第二基站上行资源的调度请求信息的 子帧, 则物理上行控制信道上检测到的调度请求信息为请求第二基站上行资 源的调度请求。
若根据步驟 5-1中的调度请求配置, 若当前子帧用户设备待传输的调度 请求信息包括多个用于请求不同基站上行资源的调度请求信息, 则基站根据 预设的优先级确定检测到的调度请求信息为所述多个调度请求信息中优先 级最高的调度请求信息; 所述预设的优先级可以为载波的优先级, 或高层通 过半静态信令通知的优先级, 或基站优先级。
本发明实施例中,通过将请求不同基站上行资源的调度请求信息以时分 复用的方式在宏基站对应的上行载波上发送,解决在 MSA场景下如何传输调 度请求的问题; 同时通过让微基站具有接收宏基站上行载波的能力, 避免延 迟上行数据得到服务的时间, 提高用户感受。 具体实施例二:
步骤 1 : 用户设备接收调度请求配置。
该步骤 1中, 用户设备接收基站通过高层信令通知的调度请求配置, 该 基站可以是宏基站。 该调度请求配置包括指示调度请求信息的传输周期和子 帧偏移的参数, 用户设备根据所述参数确定调度请求信息的传输周期和子帧 偏移, 根据所述传输周期和子帧偏移确定传输调度请求的子帧。 请求不同基 站上行资源的调度请求信息以时分复用的方式进行发送。 例如, 当用户设备 聚合了来自两个基站的上行载波时, 可以按照如下方式进行调度请求信息的 发送: 4艮据所述传输周期和子帧偏移确定传输调度请求的子帧, 且该传输调 度请求的子帧中的偶数位置上的子帧用于传输请求第一基站上行资源的调 度请求信息, 该传输调度请求的子帧中奇数位置上的子帧用于传输请求第二 基站上行资源的调度请求信息。 该传输调度请求的子帧中的第一个子帧为偶 数子帧, 依次类推。
该调度请求配置中还包括指示物理上行控制信道资源的参数, 用于指示 用户设备发送调度请求的物理上行控制信道资源。
第一基站可以是宏基站, 第二基站可以是微基站。
步骤 2: 用户设备确定待传输的调度请求信息。
该步骤 2与具体实施例一的步骤 2—致, 此处不再赘述。
步骤 3: 用户设备基于步骤 1中接收到的调度请求配置确定物理上行控制 信道资源, 该物理上行控制信道资源用于传输所述调度请求信息。
该步骤 3根据步骤 1中的调度请求配置中包括的指示物理上行控制信道 资源的参数获取物理上行控制信道资源, 该物理上行控制信道资源指示的物 理上行控制信道可以位于宏基站对应的上行载波上。
步骤 4: 用户设备在步骤 3确定的物理上行控制信道资源上传输调度请求 信息。
该步骤 4中, 用户设备在步骤 3确定的物理上行控制信道资源上将调度请 求信息发送给基站。 发送方法为现有技术, 此处不再赘述。 步骤 5: 基站对用户设备传输的调度请求信息进行检测。 该步骤 5又可包 括如下几个步骤:
步骤 5-1: 基站基于调度请求配置确定用户设备传输调度请求信息的物 理上行控制信道资源。 该步骤 5-1中的基站可以包括宏基站和微基站。
若该步骤 5-1中的基站为宏基站, 则步骤 5-1进一步包括:
步骤 5-1-a: 基站通过高层信令给用户设备发送调度请求配置; 该步骤 5-1-a中, 基站可通过 RRC信令给用户设备发送调度请求配置, 该 调度请求配置的相关信息与步骤 1一致, 此处不再赘述。
步骤 5-1-b:基站基于调度请求配置确定用户设备传输调度请求信息的物 理上行控制信道资源;
该步骤 5-1-b中,基站根据步骤 5-1-a中的调度请求配置中包括的指示物理 上行控制信道资源的参数获取物理上行控制信道资源。
若该步骤中的基站为微基站, 则步骤 5-1进一步包括:
步骤 5-1-C: 基站接收宏基站发送的调度请求配置;
该步骤 5-1-C中, 基站接收宏基站发送的调度请求配置, 具体可以为基站 接收宏基站通过 X2接口发送的调度奇求配置。该调度请求配置的相关信息与 步骤 1一致, 此处不再赘述。
步骤 5-1-d:基站基于步骤 5-1-c中接收到的调度请求配置确定用户设备传 输调度请求信息的物理上行控制信道资源;
该步骤 5-1-d与步骤 5-1-b—致, 此处不再赘述。
步骤 5-2: 基站在步骤 5-1得到的物理上行控制信道资源上检测调度请求 信息。
该步骤 5-2中, 基站在步骤 5-1得到得物理上行控制信道资源上检测调度 请求信息。 若该步骤 5-2中的基站为微基站, 则该基站具有接收宏基站上行 载波的能力, 具体可以为该基站具有接收在宏基站上行载波上发送的物理上 行控制信道的能力。 该步骤 5-2中的物理上行控制信道资源指示的物理上行 控制信道位于宏基站对应的上行载波上。
该步骤 5-2中,基站若在步骤 5-1得到的物理上行控制信道上检测到信息, 则说明用户设备发送了调度请求信息。 并根据如下方式进一步确定用户设备 发送的调度请求信息: 若当前子帧为传输请求第一基站上行资源的调度请求 信息的子帧, 则物理上行控制信道上检测到的调度请求信息为请求第一基站 上行资源的调度请求; 若当前子帧为传输请求第二基站上行资源的调度请求 信息的子帧, 则物理上行控制信道上检测到的调度请求信息为请求第二基站 上行资源的调度请求。
本发明实施例中,通过将请求不同基站上行资源的调度请求信息以时分 复用的方式在宏基站对应的上行载波上发送,解决在 MSA场景下如何传输调 度请求的问题; 同时通过让微基站具有接收宏基站上行载波的能力, 避免延 迟上行数据得到服务的时间, 提高用户感受。 具体实施例三:
步骤 1 : 用户设备接收调度请求配置。
该步骤 1中, 用户设备接收基站通过高层信令通知的调度请求配置, 该 基站可以是宏基站。 该调度请求配置包括指示调度请求信息的传输周期和子 帧偏移的参数, 用户设备根据所述参数确定调度请求信息的传输周期和子帧 偏移, 根据所述传输周期和子帧偏移确定传输调度请求的子帧。 该调度请求 配置中还包括指示物理上行控制信道资源的参数, 用于指示用户设备发送调 度请求的物理上行控制信道资源。
步骤 2: 用户设备确定待传输的调度请求信息。
该步骤 2中, 用户可按如下方式之一确定待传输的调度请求信息: 方式一: 用户设备传输 1比特调度请求信息, 具体可以为: 若待传输的 调度请求信息用于请求第一基站的上行资源, 则所述待传输的调度请求信息 的信息比特为 0; 若待传输的调度请求信息用于请求第二基站的上行资源, 则所述待传输的调度请求信息的信息比特为 1;
方式二: 用户设备传输 2比特调度请求信息, 具体可以为: 若待传输的 调度请求信息用于请求第一基站的上行资源, 则所述待传输的调度请求信息 的信息比特为 10; 若待传输的调度请求信息用于请求第二基站的上行资源, 则所述待传输的调度请求信息的信息比特为 01; 若待传输的调度请求信息用 于同时请求第一基站和第二基站的上行资源, 则所述待传输的调度请求信息 的信息比特为 11。
应理解, 该步骤 2中的第一基站可以为宏基站, 第二基站可以为微基站, 但不局限于此。
步骤 3: 用户设备基于步骤 1中接收到的调度请求配置确定物理上行控制 信道资源 , 该物理上行控制信道资源用于传输所述调度请求信息。
该步骤 3根据步骤 1中的调度请求配置中包括的指示物理上行控制信道 资源的参数获取物理上行控制信道资源, 该物理上行控制信道资源指示的物 理上行控制信道可以位于宏基站对应的上行载波上。
步骤 4: 用户设备在步骤 3确定的物理上行控制信道资源上传输调度请求 信息。
该步骤 4中, 用户设备在步骤 3确定的物理上行控制信道资源上将调度请 求信息发送给基站。 发送方法为现有技术, 此处不再赘述。
步骤 5: 基站对用户设备传输的调度请求信息进行检测。 该步骤 5又可包 括如下几个步骤:
步骤 5-1: 基站基于调度奇求配置确定用户设备传输调度请求信息的物 理上行控制信道资源。 该步骤 5-1中的基站可以包括宏基站和微基站。
若该步骤中的基站为宏基站, 则步骤 5-1进一步包括:
步骤 5-1-a: 基站通过高层信令给用户设备发送调度请求配置; 该步骤 5-1-a中, 基站可通过 RRC信令给用户设备发送调度请求配置, 该 调度请求配置的相关信息与步骤 1一致, 此处不再赘述。
步骤 5-1-b:基站基于调度请求配置确定用户设备传输调度请求信息的物 理上行控制信道资源;
该步骤 5-1-b中,基站根据步骤 5-1-a中的调度请求配置中包括的指示物理 上行控制信道资源的参数获取物理上行控制信道资源。
若该步骤中的基站为微基站, 则步骤 5-1进一步包括:
步骤 5-1-c: 基站接收宏基站发送的调度请求配置;
该步骤 5-1-c中, 基站接收宏基站发送的调度请求配置, 具体可以为基站 接收宏基站通过 X2接口发送的调度请求配置。该调度请求配置的相关信息与 步骤 1一致, 此处不再赘述。
步骤 5-1-d:基站基于步骤 5-1-c中接收到的调度请求配置确定用户设备传 输调度请求信息的物理上行控制信道资源;
该步骤 5-1-d与步骤 5-1-b—致, 此处不再赘述。
步骤 5-2: 基站在步骤 5-1得到的物理上行控制信道资源上检测调度请求 信息。
该步骤 5-2中, 基站在步骤 5-1得到得物理上行控制信道资源上检测调度 请求信息。 若该步骤 5-2中的基站为微基站, 则该基站具有接收宏基站上行 载波的能力, 具体可以为该基站具有接收在宏基站上行载波上发送的物理上 行控制信道的能力。 该步骤 5-2中的物理上行控制信道资源指示的物理上行 控制信道位于宏基站对应的上行载波上。
该步骤 5-2中,基站若在步骤 5-1得到的物理上行控制信道上检测到信息, 则说明用户设备发送了调度请求信息。 并根据如下方式进一步确定用户设备 发送的的调度请求信息:
若步骤 2中采用方式一硝定待传输的调度请求信息, 则该步骤 5-2按如下 方式进行: 若检测到的调度请求信息的信息比特为 0, 则所述调度请求信息 用于请求第一基站的上行资源; 若检测到的调度请求信息的信息比特为 1 , 则所述调度请求信息用于请求第二基站的上行资源。
若步骤 2中采用方式二确定待传输的调度请求信息, 则该步骤 5-2按如下 方式进行: 若检测到的调度请求信息的信息比特为 10则所述调度请求信息用 于请求第一基站的上行资源; 若检测到的调度请求信息的信息比特为 01 , 则 所述调度请求信息用于请求第二基站的上行资源; 若检测到的调度请求信息 的信息比特为 11 , 则所述调度请求信息用于同时请求第一基站和第二基站的 上行资源。
本发明实施例中,通过利用不同的信息状态指示请求不同基站上行资源 的调度请求信息, 解决在 MSA场景下如何传输调度请求的问题; 同时通过 让微基站具有接收宏基站上行载波的能力, 避免延迟上行数据得到服务的时 间, 提高用户感受。
下面将结合附图详细描述根据本发明实施例的传输调度请求的装置。如 图 4所示, 装置 40包括接收单元 41、 第一确定单元 42和传输单元 43。 其 中, 接收单元 41用于接收调度请求配置, 第一确定单元 42用于基于接收到 的调度请求配置, 确定用于传输调度请求信息的物理上行控制信道资源, 其 中所述调度请求信息用于所述用户设备向基站请求上行资源。 传输单元 43 用于在确定的所述物理上行控制信道资源上传输所述调度请求信息。
具体而言, 第一确定单元 42用于当所述调度请求配置包括多个指示物理 上行控制信道的参数,根据所述参数确定传输调度请求信息的物理上行控制 信道。传输单元 43用于在所述物理上行控制信道上传输向对应基站请求上行 资源的调度请求信息。 进一步地,传输单元 43用于当所述多个指示物理上行控制信道的参数包 括第一物理上行控制信道的参数和第二物理上行控制信道的参数, 在所述第 一物理上行控制信道的参数指示的物理上行控制信道上传输向第一基站请 求上行资源的调度请求信息, 在所述第二物理上行控制信道的参数指示的物 理上行控制信道上传输向第二基站请求上行资源的调度请求信息, 其中所述 第一物理上行控制信道的参数用于指示传输向第一基站请求上行资源的调 度请求信息的物理上行控制信道, 所述第二物理上行控制信道的参数用于指 示传输向第二基站请求上行资源的调度请求信息的物理上行控制信道。
或者, 具体地, 第一确定单元 42用于当所述调度请求配置包括指示调度 请求信息的传输周期和子帧偏移的参数,根据所述指示调度请求信息的传输 周期和子帧偏移的参数确定传输向不同基站请求上行资源的调度请求信息 的子帧。传输单元 43用于在确定的子帧上传输向对应的基站请求上行资源的 调度请求信息。
进一步地,传输单元 43用于在所述子帧中的偶数位置上的子帧上传输向 第一基站请求上行资源的调度请求信息, 在所述子帧中奇数位置上的子帧上 传输向第二基站请求上行资源的调度请求信息。
或者, 具体地, 第一确定单元 42用于当所述调度请求配置包括多个调度 请求子配置,根据所述指示请求对应的基站的上行资源的调度请求信息的传 输周期和子帧偏移的参数, 确定用于传输请求对应的基站的上行资源的调度 请求信息的子帧, 其中每个所述调度请求子配置包括指示请求对应的基站的 上行资源的调度奇求信息的传输周期和子帧偏移的参数。传输单元 43用于在 所述子帧上传输请求对应的基站的上行资源的调度请求信息。
可选地, 第一确定单元 42还用于当每个所述调度请求子配置还包括指示 物理上行控制信道的参数,根据所述指示物理上行控制信道的参数确定传输 调度请求信息的物理上行控制信道。传输单元 43还用于在所述子帧和所述物 理上行控制信道上传输请求对应的基站的上行资源的调度请求信息。
可选地, 第一确定单元 42还用于在传输单元 43在确定的所述物理上行控 制信道资源上传输所述调度请求信息之前, 确定待传输的调度请求信息并为 所述待传输的调度请求信息设置信息比特, 所述信息比特用于指示所述调度 请求信息请求对应的基站的上行资源。 若待传输的调度请求信息用于向第一 基站请求上行资源, 则所述待传输的调度请求信息对应的信息比特为 0; 若 待传输的调度请求信息用于向第二基站请求上行资源, 则所述待传输的调度 请求信息对应的信息比特为 1 ; 或者, 若待传输的调度请求信息用于向第一 基站请求上行资源, 则所述待传输的调度请求信息对应的信息比特为 10; 若 待传输的调度请求信息用于向第二基站请求上行资源, 则所述待传输的调度 请求信息对应的信息比特为 01 ; 若待传输的调度请求信息用于同时向第一基 站和第二基站请求上行资源, 则所述待传输的调度请求信息对应的信息比特 为 11。
可选地, 第一确定单元 42进一步用于若待传输的调度请求信息包括多个 用于向不同基站请求上行资源的调度请求信息, 则根据预设的优先级确定所 述调度请求信息为优先级最高的调度请求信息, 其中所述预设的优先级是载 波的优先级、 高层通过半静态信令通知的优先级、 或者基站优先级。
以上, 物理上行控制信道资源为宏基站对应的上行载波上的物理上行控 制信道资源。
由上可知, 本发明实施例能够通过调度请求配置 (例如包括时域配置、 频域配置及其组合配置)、 调度请求信息的内容标识及其组合等解决在 MSA 场景下如何传输调度请求信息的问题, 从而避免延迟上行数据得到服务的时 间, 提高用户感受。
图 5示出了根据本发明实施例的用户设备 50。 该用户设备 50包括接收 器 51、 处理器 52以及发送器 53。
具体而言, 接收器 51可以用于接收调度请求配置。 处理器 52可以用于 基于所述接收器 51接收到的所述调度请求配置, 确定用于传输调度请求信 息的物理上行控制信道资源, 其中所述调度请求信息用于用户设备向基站请 求上行资源。 发送器 53可以用于在确定的所述物理上行控制信道资源上传 输所述调度请求信息。 此外, 用户设备还可以包括存储器 54, 该存储器 54 中可以存储对应于用户设备侧实现的本发明实施例的传输调度请求的传输 方法的有关步骤的指令, 处理器 52通过执行该存储器 54中的指令来实现本 发明实施例的传输调度请求的传输方法。
具体而言, 处理器 52用于当所述调度请求配置包括多个指示物理上行 控制信道的参数, 根据所述参数确定传输调度请求信息的物理上行控制信 道, 其中所述多个指示物理上行控制信道的参数分别指示对应不同基站的调 度请求信息; 发送器 53用于在所述物理上行控制信道上传输向对应基站请 求上行资源的调度请求信息。
或者, 处理器 52用于当所述调度请求配置包括指示调度请求信息的传 输周期和子帧偏移的参数,根据所述指示调度请求信息的传输周期和子帧偏 移的参数确定传输向不同基站请求上行资源的调度请求信息的子帧; 发送器 53用于在确定的子帧上传输向对应的基站请求上行资源的调度请求信息。
或者, 处理器 52用于当所述调度请求配置包括多个调度请求子配置, 根据所述指示请求对应的基站的上行资源的调度请求信息的传输周期和子 帧偏移的参数,确定用于传输请求对应的基站的上行资源的调度请求信息的 子帧, 其中每个所述调度请求子配置包括指示请求对应的基站的上行资源的 调度请求信息的传输周期和子帧偏移的参数; 发送器 53用于在所述子帧上 传输请求对应的基站的上行资源的调度请求信息。
或者, 处理器 52还用于当每个所述调度请求子配置还包括指示物理上行 控制信道的参数,根据所述指示物理上行控制信道的参数确定传输调度请求 信息的物理上行控制信道; 发送器 53还用于在所述子帧和所述物理上行控制 信道上传输请求对应的基站的上行资源的调度请求信息。
或者, 处理器 52还用于在所述传输单元在确定的所述物理上行控制信道 资源上传输所述调度请求信息之前, 确定待传输的调度请求信息并为所述待 传输的调度请求信息设置信息比特, 所述信息比特用于指示所述调度请求信 息请求对应的基站的上行资源。
由上可知 , 本发明实施例能够通过调度请求配置 (例如包括时域配置、 频域配置及其组合配置)、 调度请求信息的内容标识及其组合等解决在 MSA 场景下如何传输调度请求信息的问题, 从而避免延迟上行数据得到服务的时 间, 提高用户感受。
图 6中的传输调度请求的传输装置 60包括第二确定单元 61和检测单 元 62。 其中, 第二确定单元 61用于基于调度请求配置确定用户设备传输调 度请求信息的物理上行控制信道资源。 检测单元 62用于在所述物理上行控 制信道资源上检测所述调度请求信息。
具体地, 若所述调度请求配置包括多个指示物理上行控制信道的参数, 每个所述参数用于指示用户设备传输向对应的基站请求上行资源的调度请 求信息的物理上行控制信道时, 第二确定单元 61用于基于所述指示物理上 行控制信道的参数确定用户设备传输的向不同基站请求上行资源的调度请 求信息的物理上行控制信道, 检测单元 62用于在所述物理上行控制信道上 检测所述调度请求信息。
或者, 若所述调度请求配置包括指示调度请求信息的传输周期和子帧偏 移的参数, 第二确定单元 61用于基于所述指示调度请求信息的传输周期和子 帧偏移的参数确定用户设备传输调度请求信息的子帧,检测单元 62用于在所 述子帧上检测所述调度请求信息。 以及, 第二确定单元 61可以进一步用于在 所述子帧中的奇数或偶数位置上的子帧上接收调度请求信息。
具体地, 若所述调度请求配置包括多个调度请求子配置, 其中每个所述 调度请求子配置用于配置用户设备请求对应的基站的上行资源的调度请求 信息, 第二确定单元 61用于基于所述多个调度请求子配置确定用户设备传输 的向自己请求上行资源的调度请求信息的物理上行控制信道资源,检测单元 62用于在所述调度请求子配置指示的物理上行控制信道资源上检测所述调 度请求信息。
可选地, 检测单元 62进一步用于解析所述调度请求信息的信息比特, 其 中所述信息比特用于指示所述调度请求信息请求对应的基站的上行资源; 根 据所述信息比特确定所述调度请求信息是否是用户设备传输给自己的调度 请求信息。 若解析的信息比特为 0, 则所述调度请求信息用于向第一基站请 求上行资源; 若解析的调度请求信息的信息比特为 1, 则所述调度请求信息 用于向第二基站请求上行资源; 或者若解析的信息比特为 10则所述调度请求 信息用于向第一基站请求上行资源; 若解析的信息比特为 01 , 则所述调度请 求信息用于向第二基站请求上行资源; 若解析的信息比特为 11 , 则所述调度 请求信息用于同时向第一基站和第二基站请求上行资源。
图 7所示的传输调度请求的传输装置 70包括第二确定单元 61、 检测单元 62和收发单元 63。 这里, 第二确定单元 61、 检测单元 62与图 6中的第二确定 单元 61、 检测单元 62相同。
若装置 70配置在宏基站中, 则在所述第二确定单元 62基于调度请求配置 确定用户设备传输调度请求信息的物理上行控制信道资源之前, 收发单元 63 用于通过高层信令给用户设备或微基站发送调度请求配置。
若装置 70配置在微基站中, 则在所述第二确定单元 62基于调度请求配置 确定用户设备传输调度请求信息的物理上行控制信道资源之前, 收发单元 63 用于接收宏基站发送的调度请求配置。 由上可知, 本发明实施例能够通过调度请求配置 (例如包括时域配置、 频域配置及其组合配置)、 调度请求信息的内容标识及其组合等解决在 MSA 场景下如何传输调度请求信息的问题, 从而避免延迟上行数据得到服务的时 间, 提高用户感受。
图 8示出了根据本发明实施例的基站的结构示意图。 其中, 该基站 80包 括: 发送器 81、 处理器 82和接收器 83。 其中, 发送器 81用于向用户设备发送 调度请求配置。处理器 82用于基于所述调度请求配置确定所述用户设备传输 调度请求信息的物理上行控制信道资源。接收器 83用于在确定的所述物理上 行控制信道资源上接收用户设备传输的所述调度请求信息。 此外, 基站 80还 可以包括存储器 84, 该存储器 84中可以存储对应于基站侧实现的本发明实施 例的传输调度请求的传输方法的有关步骤的指令, 处理器 82通过执行该存储 器 54中的指令来实现本发明实施例的传输调度请求的传输方法。
具体而言, 若所述调度请求配置包括多个指示物理上行控制信道的参 数, 每个所述参数用于指示用户设备传输向对应的基站请求上行资源的调度 请求信息的物理上行控制信道; 处理器 82用于基于所述指示物理上行控制 信道的参数确定用户设备传输的向不同基站请求上行资源的调度请求信息 的物理上行控制信道; 接收器 83用于在所述物理上行控制信道上检测所述 调度请求信息。
或者, 若所述调度请求配置包括指示调度请求信息的传输周期和子帧偏 移的参数; 处理器 82还用于基于所述指示调度请求信息的传输周期和子帧偏 移的参数确定用户设备传输调度请求信息的子帧; 接收器 83还用于在所述子 帧上检测所述调度请求信息。
进一步地, 处理器 82用于在所述子帧中的奇数或偶数位置上的子帧上接 收调度请求信息。
或者, 若所述调度请求配置包括多个调度请求子配置, 其中每个所述调 度请求子配置用于配置用户设备请求对应的基站的上行资源的调度请求信 息; 处理器 82用于基于所述多个调度请求子配置确定用户设备传输的向自己 请求上行资源的调度请求信息的物理上行控制信道资源; 接收器 83用于在所 述调度请求子配置指示的物理上行控制信道资源上检测所述调度请求信息。
或者, 处理器 82还用于解析所述调度请求信息的信息比特, 其中所述信 息比特用于指示所述调度请求信息请求对应的基站的上行资源; 根据所述信 息比特确定所述调度请求信息是否是用户设备传输给自己的调度请求信息。 由上可知, 本发明实施例能够通过调度请求配置 (例如包括时域配置、 频域配置及其组合配置)、 调度请求信息的内容标识及其组合等解决在 MSA 场景下如何传输调度请求信息的问题, 从而避免延迟上行数据得到服务的时 间, 提高用户感受。
应理解, 本发明的每个权利要求所叙述的方案也应看作是一个实施例, 并且是权利要求中的特征是可以结合的, 如本发明中的判断步骤后的执行的 不同分支的步骤可以作为不同的实施例。
本领域普通技术人员可以意识到, 结合本文中所公开的实施例描述的各 示例的单元及算法步骤, 能够以电子硬件、 或者计算机软件和电子硬件的结 合来实现。 这些功能究竟以硬件还是软件方式来执行, 取决于技术方案的特 定应用和设计约束条件。 专业技术人员可以对每个特定的应用来使用不同方 法来实现所描述的功能, 但是这种实现不应认为超出本发明的范围。
所属领域的技术人员可以清楚地了解到, 为描述的方便和简洁, 上述描 述的系统、 装置和单元的具体工作过程, 可以参考前述方法实施例中的对应 过程, 在此不再赘述。
在本申请所提供的几个实施例中, 应该理解到, 所揭露的系统、 装置和 方法, 可以通过其它的方式实现。 例如, 以上所描述的装置实施例仅仅是示 意性的, 例如, 所述单元的划分, 仅仅为一种逻辑功能划分, 实际实现时可 以有另外的划分方式, 例如多个单元或组件可以结合或者可以集成到另一个 系统, 或一些特征可以忽略, 或不执行。 另一点, 所显示或讨论的相互之间 的耦合或直接耦合或通信连接可以是通过一些接口, 装置或单元的间接耦合 或通信连接, 可以是电性, 机械或其它的形式。
所述作为分离部件说明的单元可以是或者也可以不是物理上分开的,作 为单元显示的部件可以是或者也可以不是物理单元, 即可以位于一个地方, 或者也可以分布到多个网络单元上。 可以根据实际的需要选择其中的部分或 者全部单元来实现本实施例方案的目的。
另外, 在本发明各个实施例中的各功能单元可以集成在一个处理单元 中, 也可以是各个单元单独物理存在, 也可以两个或两个以上单元集成在一 个单元中。
所述功能如果以软件功能单元的形式实现并作为独立的产品销售或使 用时, 可以存储在一个计算机可读取存储介质中。 基于这样的理解, 本发明 的技术方案本质上或者说对现有技术做出贡献的部分或者该技术方案的部 分可以以软件产品的形式体现出来, 该计算机软件产品存储在一个存储介质 中, 包括若干指令用以使得一台计算机设备(可以是个人计算机, 服务器, 或者网络设备等)执行本发明各个实施例所述方法的全部或部分步骤。 而前 述的存储介质包括: U盘、移动硬盘、只读存储器( ROM , Read-Only Memory ), 随机存取存储器(RAM, Random Access Memory 磁碟或者光盘等各种可 以存储程序代码的介质。
以上所述, 仅为本发明的具体实施方式, 但本发明的保护范围并不局限 于此, 任何熟悉本技术领域的技术人员在本发明揭露的技术范围内, 可轻易 想到变化或替换, 都应涵盖在本发明的保护范围之内。 因此, 本发明的保护 范围应所述以权利要求的保护范围为准。

Claims

权利要求
1、 一种传输调度请求的方法, 其特征在于, 包括:
用户设备基于接收到的调度请求配置, 确定用于传输调度请求信息的物 理上行控制信道资源, 其中所述调度请求信息用于所述用户设备向基站请求 上行资源;
所述用户设备在确定的所述物理上行控制信道资源上传输所述调度请 求信息。
2、 根据权利要求 1所述的方法, 其特征在于, 所述用户设备基于接收到 的调度请求配置, 确定用于传输调度请求信息的物理上行控制信道资源包 括:
当所述调度请求配置包括多个指示物理上行控制信道的参数, 所述用户 设备根据所述参数确定传输调度请求信息的物理上行控制信道, 其中所述多 个指示物理上行控制信道的参数分别指示对应不同基站的调度请求信息; 所述用户设备在确定的所述物理上行控制信道资源上传输所述调度请 求信息包括:
所述用户设备在所述物理上行控制信道上传输向对应基站请求上行资 源的调度请求信息。
3、 根据权利要求 2所述的方法, 其特征在于, 当所述多个指示物理上行 控制信道的参数包括第一物理上行控制信道的参数和第二物理上行控制信 道的参数, 其中所述第一物理上行控制信道的参数用于指示传输向第一基站 请求上行资源的调度请求信息的物理上行控制信道, 所述第二物理上行控制 信道的参数用于指示传输向第二基站请求上行资源的调度请求信息的物理 上行控制信道;
所述用户设备在所述物理上行控制信道上传输向对应基站请求上行资 源的调度请求信息包括:
所述用户设备在所述第一物理上行控制信道的参数指示的物理上行控 制信道上传输向第一基站请求上行资源的调度请求信息, 在所述第二物理上 行控制信道的参数指示的物理上行控制信道上传输向第二基站请求上行资 源的调度请求信息。
4、 根据权利要求 1或 2所述的方法, 其特征在于, 所述用户设备基于接 收到的调度请求配置,确定用于传输调度请求信息的物理上行控制信道资源 包括:
当所述调度请求配置包括指示调度请求信息的传输周期和子帧偏移的 参数, 用户设备根据所述指示调度请求信息的传输周期和子帧偏移的参数确 定传输向不同基站请求上行资源的调度请求信息的子帧;
所述用户设备在确定的所述物理上行控制信道资源上传输所述调度请 求信息包括:
所述用户设备在确定的子帧上传输向对应的基站请求上行资源的调度 请求信息。
5、 根据权利要求 4所述的方法, 其特征在于, 所述用户设备在确定的子 帧上传输向对应的基站请求上行资源的调度奇求信息包括:
所述用户设备在所述子帧中的偶数位置上的子帧上传输向第一基站请 求上行资源的调度请求信息, 所述用户设备在所述子帧中奇数位置上的子帧 上传输向第二基站请求上行资源的调度请求信息。
6、 根据权利要求 1所述的方法, 其特征在于,
所述用户设备基于接收到的调度请求配置, 确定用于传输调度请求信息 的物理上行控制信道资源包括:
当所述调度请求配置包括多个调度请求子配置, 其中每个所述调度请求 子配置包括指示请求对应的基站的上行资源的调度请求信息的传输周期和 子帧偏移的参数;
所述用户设备根据所述指示请求对应的基站的上行资源的调度请求信 息的传输周期和子帧偏移的参数, 确定用于传输请求对应的基站的上行资源 的调度请求信息的子帧;
所述用户设备在确定的所述物理上行控制信道资源上传输所述调度请 求信息包括:
所述用户设备在所述子帧上传输请求对应的基站的上行资源的调度请 求信息。
7、 根据权利要求 6所述的方法, 其特征在于,
所述用户设备基于接收到的调度请求配置, 确定用于传输调度请求信息 的物理上行控制信道资源还包括:
当每个所述调度请求子配置还包括指示物理上行控制信道的参数, 所述 用户设备还根据所述指示物理上行控制信道的参数确定传输调度请求信息 的物理上行控制信道;
所述用户设备在确定的所述物理上行控制信道资源上传输所述调度请 求信息包括:
所述用户设备在所述子帧和所述物理上行控制信道上传输请求对应的 基站的上行资源的调度请求信息。
8、 根据权利要求 1至 7中任一项所述的方法, 其特征在于, 在所述用户 设备在确定的所述物理上行控制信道资源上传输所述调度请求信息之前,还 包括:
所述用户设备确定待传输的调度请求信息;
所述用户设备为所述待传输的调度请求信息设置信息比特, 所述信息比 特用于指示所述调度请求信息请求对应的基站的上行资源。
9、 根据权利要求 8所述的方法, 其特征在于,
若待传输的调度请求信息用于向第一基站请求上行资源, 则所述待传输 的调度请求信息对应的信息比特为 0; 若待传输的调度请求信息用于向第二 基站请求上行资源, 则所述待传输的调度请求信息对应的信息比特为 1 ; 或 者,
若待传输的调度请求信息用于向第一基站请求上行资源, 则所述待传输 的调度请求信息对应的信息比特为 10; 若待传输的调度请求信息用于向第二 基站请求上行资源, 则所述待传输的调度请求信息对应的信息比特为 01; 若 待传输的调度请求信息用于同时向第一基站和第二基站请求上行资源, 则所 述待传输的调度请求信息对应的信息比特为 11。
10、 根据权利要求 8或 9中所述的方法, 其特征在于, 所述用户设备确定 待传输的调度请求信息进一步包括:
若待传输的调度请求信息包括多个用于向不同基站请求上行资源的调 度请求信息, 则所述用户设备根据预设的优先级确定所述调度请求信息为优 先级最高的调度请求信息。
11、 根据权利要求 10所述的方法, 其特征在于, 所述预设的优先级是载 波的优先级、 高层通过半静态信令通知的优先级、 或者基站优先级。
12、 根据权利要求 1至 11 中任一项所述的方法, 其特征在于, 所述物 理上行控制信道资源为宏基站对应的上行载波上的物理上行控制信道资源。
13、 一种传输调度请求的传输方法, 其特征在于, 包括: 基站基于调度请求配置确定用户设备传输调度请求信息的物理上行控 制信道资源;
所述基站在所述物理上行控制信道资源上检测所述调度请求信息。
14、 根据权利要求 13所述的方法, 其特征在于, 若所述调度请求配置 包括多个指示物理上行控制信道的参数,每个所述参数用于指示用户设备传 输向对应的基站请求上行资源的调度请求信息的物理上行控制信道;
所述基站基于调度请求配置确定用户设备传输调度请求信息的物理上 行控制信道资源包括:
所述基站基于所述指示物理上行控制信道的参数确定用户设备传输的 向不同基站请求上行资源的调度请求信息的物理上行控制信道;
所述基站在所述物理上行控制信道资源上检测所述调度请求信息包括: 所述基站在所述物理上行控制信道上检测所述调度请求信息。
15、 根据权利要求 13或 14所述的方法, 其特征在于, 若所述调度请求配 置包括指示调度请求信息的传输周期和子帧偏移的参数;
所述基站基于调度请求配置确定用户设备传输调度请求信息的物理上 行控制信道资源包括:
所述基站基于所述指示调度请求信息的传输周期和子帧偏移的参数确 定用户设备传输调度请求信息的子帧;
所述基站在所述物理上行控制信道资源上检测所述调度请求信息包括: 所述基站在所述子帧上检测所述调度请求信息。
16、 根据权利要求 15所述的方法, 其特征在于, 所述基站基于所述指示 调度请求信息的传输周期和子帧偏移的参数确定用户设备传输调度请求信 息的子帧包括:
所述基站在所述子帧中的奇数或偶数位置上的子帧上接收调度请求信 息。
17、 根据权利要求 13所述的方法, 其特征在于, 若所述调度请求配置包 括多个调度请求子配置, 其中每个所述调度请求子配置用于配置用户设备请 求对应的基站的上行资源的调度请求信息;
所述基站基于调度请求配置确定用户设备传输调度请求信息的物理上 行控制信道资源包括: 所述基站基于所述多个调度请求子配置确定用户设备传输的向自己请 求上行资源的调度请求信息的物理上行控制信道资源;
所述基站在所述物理上行控制信道资源上检测所述调度请求信息包括: 所述基站在所述调度请求子配置指示的物理上行控制信道资源上检测 所述调度请求信息。
18、 根据权利要求 13至 17中任一项所述的方法, 其特征在于, 所述基站 在所述物理上行控制信道资源上检测所述调度请求信息还包括:
所述基站解析所述调度请求信息的信息比特, 其中所述信息比特用于指 示所述调度请求信息请求对应的基站的上行资源;
所述基站根据所述信息比特确定所述调度请求信息是否是用户设备传 输给自己的调度奇求信息。
19、 根据权利要求 18所述的方法, 其特征在于,
若解析的信息比特为 0, 则所述调度请求信息用于向第一基站请求上行 资源; 若解析的调度请求信息的信息比特为 1 , 则所述调度请求信息用于向 第二基站请求上行资源; 或者
若解析的信息比特为 10则所述调度请求信息用于向第一基站请求上行 资源; 若解析的信息比特为 01, 则所述调度请求信息用于向第二基站请求上 行资源; 若解析的信息比特为 11, 则所述调度请求信息用于同时向第一基站 和第二基站请求上行资源。
20、 根据权利要求 13至 19中任一项所述的方法, 其特征在于, 若所述基 站是宏基站, 则在所述基站基于调度请求配置确定用户设备传输调度请求信 息的物理上行控制信道资源之前, 还包括:
所述基站通过高层信令给用户设备或微基站发送调度请求配置。
21、 根据权利要求 13至 19中任一项所述的方法, 其特征在于, 若所述基 站是微基站, 则在所述基站基于调度请求配置确定用户设备传输调度请求信 息的物理上行控制信道资源之前, 还包括:
所述基站接收宏基站发送的调度请求配置。
22、 一种传输调度请求的装置, 其特征在于, 包括:
接收单元, 用于接收调度请求配置;
第一确定单元, 用于基于所述接收单元接收到的所述调度请求配置, 确 定用于传输调度请求信息的物理上行控制信道资源, 其中所述调度请求信息 用于用户设备向基站请求上行资源;
传输单元, 用于在确定的所述物理上行控制信道资源上传输所述调度请 求信息。
23、 根据权利要求 22所述的装置, 其特征在于,
所述第一确定单元具体用于:
当所述调度请求配置包括多个指示物理上行控制信道的参数, 根据所述 参数确定传输调度请求信息的物理上行控制信道, 其中所述多个指示物理上 行控制信道的参数分别指示对应不同基站的调度请求信息;
所述传输单元具体用于:
在所述物理上行控制信道上传输向对应基站请求上行资源的调度请求 信息。
24、 根据权利要求 23所述的装置, 其特征在于, 所述传输单元进一步用 于:
当所述多个指示物理上行控制信道的参数包括第一物理上行控制信道 的参数和第二物理上行控制信道的参数, 在所述第一物理上行控制信道的参 数指示的物理上行控制信道上传输向第一基站请求上行资源的调度请求信 息, 在所述第二物理上行控制信道的参数指示的物理上行控制信道上传输向 第二基站请求上行资源的调度请求信息, 其中所述第一物理上行控制信道的 参数用于指示传输向第一基站请求上行资源的调度请求信息的物理上行控 制信道, 所述第二物理上行控制信道的参数用于指示传输向第二基站请求上 行资源的调度请求信息的物理上行控制信道。
25、 根据权利要求 22或 23所述的装置, 其特征在于,
所述第一确定单元具体用于:
当所述调度请求配置包括指示调度请求信息的传输周期和子帧偏移的 参数, 根据所述指示调度请求信息的传输周期和子帧偏移的参数确定传输向 不同基站请求上行资源的调度请求信息的子帧;
所述传输单元具体用于:
在确定的子帧上传输向对应的基站请求上行资源的调度请求信息。
26、 根据权利要求 25所述的装置, 其特征在于, 所述传输单元进一步用 于:
在所述子帧中的偶数位置上的子帧上传输向第一基站请求上行资源的 调度请求信息,在所述子帧中奇数位置上的子帧上传输向第二基站请求上行 资源的调度请求信息。
27、 根据权利要求 22所述的装置, 其特征在于,
所述第一确定单元具体用于:
当所述调度请求配置包括多个调度请求子配置,根据所述指示请求对应 的基站的上行资源的调度请求信息的传输周期和子帧偏移的参数,确定用于 传输请求对应的基站的上行资源的调度请求信息的子帧,其中每个所述调度 请求子配置包括指示请求对应的基站的上行资源的调度请求信息的传输周 期和子帧偏移的参数;
所述传输单元具体用于:
在所述子帧上传输请求对应的基站的上行资源的调度请求信息。
28、 根据权利要求 27所述的装置, 其特征在于,
所述第一确定单元还用于:
当每个所述调度请求子配置还包括指示物理上行控制信道的参数,根据 所述指示物理上行控制信道的参数确定传输调度请求信息的物理上行控制 信道;
所述传输单元还用于:
在所述子帧和所述物理上行控制信道上传输请求对应的基站的上行资 源的调度请求信息。
29、 根据权利要求 22至 28中任一项所述的装置, 其特征在于, 所述第一 确定单元还用于:
在所述传输单元在确定的所述物理上行控制信道资源上传输所述调度 请求信息之前,确定待传输的调度请求信息并为所述待传输的调度请求信息 设置信息比特,所述信息比特用于指示所述调度请求信息请求对应的基站的 上行资源。
30、 根据权利要求 29所述的装置, 其特征在于,
若待传输的调度请求信息用于向第一基站请求上行资源, 则所述待传输 的调度请求信息对应的信息比特为 0; 若待传输的调度请求信息用于向第二 基站请求上行资源, 则所述待传输的调度请求信息对应的信息比特为 1 ; 或 者,
若待传输的调度请求信息用于向第一基站请求上行资源, 则所述待传输 的调度请求信息对应的信息比特为 10; 若待传输的调度请求信息用于向第二 基站请求上行资源, 则所述待传输的调度请求信息对应的信息比特为 01 ; 若 待传输的调度请求信息用于同时向第一基站和第二基站请求上行资源, 则所 述待传输的调度请求信息对应的信息比特为 11。
31、 根据权利要求 29或 30中所述的装置, 其特征在于, 所述第一确定单 元进一步用于:
若待传输的调度请求信息包括多个用于向不同基站请求上行资源的调 度请求信息, 则根据预设的优先级确定所述调度请求信息为优先级最高的调 度请求信息, 其中所述预设的优先级是载波的优先级、 高层通过半静态信令 通知的优先级、 或者基站优先级。
32、 根据权利要求 22至 31中任一项所述的装置, 其特征在于, 所述物 理上行控制信道资源为宏基站对应的上行载波上的物理上行控制信道资源。
33、 一种传输调度请求的传输装置, 其特征在于, 包括:
第二确定单元, 用于基于调度请求配置确定用户设备传输调度请求信息 的物理上行控制信道资源;
检测单元, 用于在所述物理上行控制信道资源上检测所述调度请求信 息。
34、 根据权利要求 33所述的装置, 其特征在于, 若所述调度请求配置 包括多个指示物理上行控制信道的参数,每个所述参数用于指示用户设备传 输向对应的基站请求上行资源的调度请求信息的物理上行控制信道;
所述第二确定单元具体用于:
基于所述指示物理上行控制信道的参数确定用户设备传输的向不同基 站请求上行资源的调度请求信息的物理上行控制信道;
所述检测单元具体用于:
在所述物理上行控制信道上检测所述调度请求信息。
35、 根据权利要求 33或 34所述的装置, 其特征在于, 若所述调度请求配 置包括指示调度请求信息的传输周期和子帧偏移的参数;
所述第二确定单元还用于:
基于所述指示调度请求信息的传输周期和子帧偏移的参数确定用户设 备传输调度请求信息的子帧;
所述检测单元还用于: 在所述子帧上检测所述调度请求信息。
36、 根据权利要求 35所述的装置, 其特征在于, 所述第二确定单元进一 步用于:
在所述子帧中的奇数或偶数位置上的子帧上接收调度请求信息。
37、 根据权利要求 33所述的装置, 其特征在于, 若所述调度请求配置包 括多个调度请求子配置, 其中每个所述调度请求子配置用于配置用户设备请 求对应的基站的上行资源的调度请求信息;
所述第二确定单元具体用于:
基于所述多个调度请求子配置确定用户设备传输的向自己请求上行资 源的调度请求信息的物理上行控制信道资源;
所述检测单元具体用于:
在所述调度请求子配置指示的物理上行控制信道资源上检测所述调度 请求信息。
38、 根据权利要求 33至 37中任一项所述的装置, 其特征在于, 所述检测 单元进一步用于:
解析所述调度请求信息的信息比特, 其中所述信息比特用于指示所述调 度请求信息请求对应的基站的上行资源;
根据所述信息比特确定所述调度请求信息是否是用户设备传输给自己 的调度请求信息。
39、 根据权利要求 38所述的装置, 其特征在于,
若解析的信息比特为 0, 则所述调度请求信息用于向第一基站请求上行 资源; 若解析的调度请求信息的信息比特为 1, 则所述调度请求信息用于向 第二基站请求上行资源; 或者
若解析的信息比特为 10则所述调度请求信息用于向第一基站请求上行 资源; 若解析的信息比特为 01 , 则所述调度请求信息用于向第二基站请求上 行资源; 若解析的信息比特为 11 , 则所述调度请求信息用于同时向第一基站 和第二基站请求上行资源。
40、 根据权利要求 33至 39中任一项所述的装置, 其特征在于, 还包括: 收发单元, 用于:
若所述装置配置在宏基站中, 则在所述第二确定单元基于调度请求配置 确定用户设备传输调度请求信息的物理上行控制信道资源之前, 通过高层信 令给用户设备或微基站发送调度请求配置; 或者
若所述装置配置在微基站中, 则在所述第二确定单元基于调度请求配置 确定用户设备传输调度请求信息的物理上行控制信道资源之前,接收宏基站 发送的调度请求配置。
41、 一种用户设备, 其特征在于, 包括:
接收器, 用于接收调度请求配置;
处理器, 用于基于所述接收器接收到的所述调度请求配置, 确定用于传 输调度请求信息的物理上行控制信道资源,其中所述调度请求信息用于用户 设备向基站请求上行资源;
发送器, 用于在确定的所述物理上行控制信道资源上传输所述调度请求 信息。
42、 根据权利要求 41所述的用户设备, 其特征在于,
所述处理器用于:
当所述调度请求配置包括多个指示物理上行控制信道的参数, 根据所述 参数确定传输调度请求信息的物理上行控制信道, 其中所述多个指示物理上 行控制信道的参数分别指示对应不同基站的调度请求信息;
所述发送器用于:
在所述物理上行控制信道上传输向对应基站请求上行资源的调度请求 信息。
43、 根据权利要求 41或 42所述的用户设备, 其特征在于,
所述处理器用于:
当所述调度请求配置包括指示调度请求信息的传输周期和子帧偏移的 参数, 根据所述指示调度请求信息的传输周期和子帧偏移的参数确定传输向 不同基站请求上行资源的调度请求信息的子帧;
所述发送器用于:
在确定的子帧上传输向对应的基站请求上行资源的调度请求信息。
44、 根据权利要求 41所述的用户设备, 其特征在于,
所述处理器用于:
当所述调度请求配置包括多个调度请求子配置,根据所述指示请求对应 的基站的上行资源的调度请求信息的传输周期和子帧偏移的参数, 确定用于 传输请求对应的基站的上行资源的调度请求信息的子帧, 其中每个所述调度 请求子配置包括指示请求对应的基站的上行资源的调度请求信息的传输周 期和子帧偏移的参数;
所述发送器用于:
在所述子帧上传输请求对应的基站的上行资源的调度请求信息。
45、 根据权利要求 44所述的用户设备, 其特征在于,
所述处理器还用于:
当每个所述调度请求子配置还包括指示物理上行控制信道的参数,根据 所述指示物理上行控制信道的参数确定传输调度请求信息的物理上行控制 信道;
所述发送器还用于:
在所述子帧和所述物理上行控制信道上传输请求对应的基站的上行资 源的调度请求信息。
46、 根据权利要求 41至 45中任一项所述的用户设备, 其特征在于, 所述处理器还用于:
在所述传输单元在确定的所述物理上行控制信道资源上传输所述调度 请求信息之前,确定待传输的调度请求信息并为所述待传输的调度请求信息 设置信息比特, 所述信息比特用于指示所述调度请求信息请求对应的基站的 上行资源。
47、 一种基站, 其特征在于, 包括:
发送器, 用于向用户设备发送调度奇求配置;
处理器, 用于基于所述调度请求配置确定所述用户设备传输调度请求信 息的物理上行控制信道资源;
接收器, 用于在确定的所述物理上行控制信道资源上接收用户设备传输 的所述调度请求信息。
48、 根据权利要求 47所述的基站, 其特征在于, 若所述调度请求配置 包括多个指示物理上行控制信道的参数,每个所述参数用于指示用户设备传 输向对应的基站请求上行资源的调度请求信息的物理上行控制信道;
所述处理器用于:
基于所述指示物理上行控制信道的参数确定用户设备传输的向不同基 站请求上行资源的调度请求信息的物理上行控制信道;
所述接收器用于: 在所述物理上行控制信道上检测所述调度请求信息。
49、 根据权利要求 47或 48所述的基站, 其特征在于, 若所述调度请求配 置包括指示调度请求信息的传输周期和子帧偏移的参数;
所述处理器还用于:
基于所述指示调度请求信息的传输周期和子帧偏移的参数确定用户设 备传输调度请求信息的子帧;
所述接收器还用于:
在所述子帧上检测所述调度请求信息。
50、根据权利要求 49所述的基站,其特征在于, 所述处理器进一步用于: 在所述子帧中的奇数或偶数位置上的子帧上接收调度请求信息。
51、 根据权利要求 47所述的基站, 其特征在于, 若所述调度请求配置包 括多个调度请求子配置, 其中每个所述调度请求子配置用于配置用户设备请 求对应的基站的上行资源的调度请求信息;
所述处理器用于:
基于所述多个调度请求子配置确定用户设备传输的向自己请求上行资 源的调度请求信息的物理上行控制信道资源;
所述接收器用于:
在所述调度请求子配置指示的物理上行控制信道资源上检测所述调度 请求信息。
52、 根据权利要求 47至 51中任一项所述的基站, 其特征在于, 所述处理器还用于:
解析所述调度请求信息的信息比特, 其中所述信息比特用于指示所述调 度请求信息请求对应的基站的上行资源;
根据所述信息比特确定所述调度请求信息是否是用户设备传输给自己 的调度请求信息。
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EP2903380A1 (en) 2015-08-05

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