WO2011071341A2 - Appareil et procédé de réalisation d'un accès basé sur la concurrence dans un système de communication entre mobiles - Google Patents

Appareil et procédé de réalisation d'un accès basé sur la concurrence dans un système de communication entre mobiles Download PDF

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Publication number
WO2011071341A2
WO2011071341A2 PCT/KR2010/008858 KR2010008858W WO2011071341A2 WO 2011071341 A2 WO2011071341 A2 WO 2011071341A2 KR 2010008858 W KR2010008858 W KR 2010008858W WO 2011071341 A2 WO2011071341 A2 WO 2011071341A2
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WIPO (PCT)
Prior art keywords
contention based
based access
uplink transmission
uplink grant
uplink
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PCT/KR2010/008858
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English (en)
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WO2011071341A3 (fr
Inventor
Soeng-Hun Kim
Gert-Jan Van Lieshout
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Samsung Electronics Co., Ltd.
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Priority to US13/514,956 priority Critical patent/US8995462B2/en
Publication of WO2011071341A2 publication Critical patent/WO2011071341A2/fr
Publication of WO2011071341A3 publication Critical patent/WO2011071341A3/fr

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L12/00Data switching networks
    • H04L12/28Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
    • H04L12/40Bus networks
    • H04L12/407Bus networks with decentralised control
    • H04L12/413Bus networks with decentralised control with random access, e.g. carrier-sense multiple-access with collision detection [CSMA-CD]
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W74/00Wireless channel access
    • H04W74/08Non-scheduled access, e.g. ALOHA

Definitions

  • the present invention relates to an apparatus and a method for performing a contention-based access in a mobile communication system.
  • Mobile communication systems have been developed in order to provide a communication while securing a mobility of users. With remarkable technological development, the current mobile communication systems can provide a high speed data communication service as well as a voice communication service.
  • the 3rd Generation Partnership Project (3GPP) is arranging standardizations for the Long Term Evolution (LTE), as one of the next generation mobile communication systems.
  • LTE Long Term Evolution
  • the LTE is a technology for realizing a high speed packet based communication having a transmission speed of a maximum of about 100 Mbps, which is higher than the currently provided data rate, with targeting at commercialization thereof around the year of 2010, and the standardization job for the LTE has been nearly completed.
  • LTE-A LTE-Advanced
  • LTE-A LTE-Advanced
  • the contention based access technology has been proposed in order to solve the problems of the typical uplink transmission according to the prior arts.
  • the typical uplink transmission is performed through dedicated transmission resources allocated by a Base Station or Node B, and an allocation of transmission resources requires a preliminary process of requesting a Node B to allocate the transmission resources by a User Equipment (UE), which may increase the transmission delay.
  • UE User Equipment
  • the contention based access technology allows a Node B to use a part of transmission resources as resources for the contention based access. Since the transmission resources having been notified as the resources for the contention based access can be freely used by UEs which will transmit data, signal collision may occur when multiple UEs transmit signals through the same transmission resource. Such a signal collision may remarkably reduce the possibility that the corresponding signals can be successfully decoded in a Node B.
  • the present invention has been made to solve the above-mentioned problems occurring in the prior art, and an aspect of the present invention provides an apparatus and a method for minimizing collision between signals transmitted in the uplink by multiple UEs through contention based transmission resources in a mobile communication system.
  • a method of performing a contention based access in a User Equipment (UE) of a mobile communication system including: triggering a Buffer Status Report (BSR) to an Enhanced Node B (ENB) when data to be transmitted to the ENB occurs; and triggering the contention based access when the BSR has been triggered.
  • BSR Buffer Status Report
  • ENB Enhanced Node B
  • a method of performing a contention based access in a UE of a mobile communication system including: determining if each sub-frame is included in an active time during a discontinuous reception; and when a corresponding sub-frame is included in the active time, performing a monitoring in order to determine if a contention based uplink grant for an uplink transmission is received through a control channel of the corresponding sub-frame.
  • a method of performing a contention based access in a UE of a mobile communication system including: receiving a contention based uplink grant for an uplink transmission from an ENB; determining if an uplink transmission by the contention based uplink grant will be performed at a same sub-frame as that for another uplink transmission; and when it is determined that the uplink transmission by the contention based uplink grant will be performed at the same sub-frame, preventing execution of the uplink transmission by the contention based uplink grant.
  • a User Equipment for performing a contention based access in a mobile communication system
  • the UE including: a transmission/reception unit for transmitting and receiving data to and from an Enhanced Node B (ENB); and a control unit for triggering a Buffer Status Report (BSR) to an Enhanced Node B (ENB) when data to be transmitted to the ENB occurs, and triggering the contention based access when the BSR has been triggered.
  • BSR Buffer Status Report
  • a UE for performing a contention based access in a UE of a mobile communication system including: a transmission/reception unit for transmitting and receiving data to and from an ENB; and a control unit for determining if each sub-frame is included in an active time during a discontinuous reception, and, when a corresponding sub-frame is included in the active time, performing a monitoring in order to determine if a contention based uplink grant for an uplink transmission is received through a control channel of the corresponding sub-frame.
  • a UE for performing a contention based access in a UE of a mobile communication system including: a transmission/reception unit for transmitting and receiving data to and from an ENB; and a control unit for receiving a contention based uplink grant for an uplink transmission from the ENB, determining if an uplink transmission by the contention based uplink grant will be performed at a same sub-frame as that for another uplink transmission, and, when it is determined that the uplink transmission by the contention based uplink grant will be performed at the same sub-frame, preventing execution of the uplink transmission by the contention based uplink grant.
  • FIG. 1 illustrates a structure of an LTE mobile communication system
  • FIG. 2 illustrates a wireless protocol structure of a mobile communication system
  • FIG. 3 is a signal flow diagram illustrating a typical uplink transmission process in a mobile communication system
  • FIG. 4 illustrates an example of a contention based access in a mobile communication system
  • FIG. 5 is a flowchart illustrating an operation of a UE according to the first embodiment of the present invention
  • FIG. 6 is a flowchart illustrating an operation of a UE according to the 2-1st embodiment of the present invention.
  • FIG. 7 is a flowchart illustrating an operation of a UE according to the 2-2nd embodiment of the present invention.
  • FIG. 8 illustrates a problem that a contention based access may be canceled before a random access process is performed
  • FIG. 9 is a flowchart illustrating an operation of a UE according to the 3-1st embodiment of the present invention.
  • FIG. 10 is a flowchart illustrating an operation of a UE according to the 3-2nd embodiment of the present invention.
  • FIG. 11 illustrates a problem that a UE performing a discontinuous reception is unable to perform a contention based access before transmission of a scheduling request
  • FIG. 12 is a flowchart illustrating an operation of a UE according to the fourth embodiment of the present invention.
  • FIG. 13 illustrates a problem that a contention based uplink transmission and a typical uplink transmission are performed in the same sub-frame
  • FIG. 14 is a flowchart illustrating an operation of a UE according to the fifth embodiment of the present invention.
  • FIG. 15 is a signal flow diagram illustrating an operation between a UE and an ENB according to the sixth embodiment of the present invention.
  • FIG. 16 is a flowchart illustrating an operation of an ENB according to the sixth embodiment of the present invention.
  • FIG. 17 is a flowchart illustrating an operation of a UE according to the sixth embodiment of the present invention.
  • FIG. 18 is a block diagram illustrating a UE apparatus according to an embodiment of the present invention.
  • FIG. 19 is a block diagram illustrating a structure of an ENB apparatus according to an embodiment of the present invention.
  • the present invention presents a method and an apparatus for minimizing occurrence of collision between signals in performing uplink transmission of the signals through contention based transmission resources.
  • FIG. 1 illustrates a structure of an LTE mobile communication system.
  • a wireless access network of an LTE mobile communication system as shown includes Evolved Node Bs (ENBs or simply Node Bs) 105, 110, 115, and 120, a Mobility Management Entity (MME) 125, and a Serving-Gateway (S-GW) 130.
  • EMBs Evolved Node Bs
  • MME Mobility Management Entity
  • S-GW Serving-Gateway
  • a User Equipment (UE) 135 accesses an external network through the ENBs 105, 110, 115, and 120, and the S-GW 130.
  • Each of the ENBs 105, 110, 115, and 120 corresponds to an existing Node B of the Universal Mobile Telecommunications System (UMTS).
  • the ENBs 105, 110, 115, and 120 are connected to the UE 135 through a wireless channel and performs a more complicated function than the existing Node B.
  • VoIP Voice over IP
  • an apparatus for collecting situation information of the UEs and performing the scheduling based on the collected information is necessary and the ENBs 105, 110, 115, and 120 are apparatuses performing such a job.
  • one ENB controls a plurality of cells.
  • the LTE mobile communication system uses an Orthogonal Frequency Division Multiplexing (OFDM) scheme as a wireless access technology with a bandwidth of a maximum of 20 MHz. Further, the LTE mobile communication system applies an Adaptive Modulation & Coding (AMC) scheme, which determines a modulation scheme and a channel coding rate in accordance with the channel state of a UE.
  • the S-GW 130 is an apparatus for providing a data bearer and generates or removes a data bearer under the control of THE MME.
  • the MME is an apparatus for performing various control functions and is connected to a plurality of ENBs.
  • FIG. 2 illustrates a wireless protocol structure of a mobile communication system.
  • a wireless protocol structure of an LTE mobile communication system includes a Packet Data Convergence Protocol (PDCP) layer 205 or 240, a Radio Link Control (RLC) layer 210 or 235, a Medium Access Control (MAC) layer 215 or 230, and Physical layer (PHY) layer 220 or 225.
  • the PDCP layer 205 or 240 performs IP header compression/decompression, etc., and the RLC layer 210 or 235 reconstructs a PDCP Packet Data Unit (PDU) to a proper size and performs an Automatic Repeat reQuest (ARQ).
  • PDU Packet Data Unit
  • ARQ Automatic Repeat reQuest
  • the MAC layer 215 or 230 is connected to various RLC layer devices configured in one UE, and multiplexes PLC PDUs into a MAC PDU or demultiplexes PLC PDUs from a MAC PDU.
  • the PHY layer 220 or 225 channel-codes or modulates higher layer data into an OFDM symbol and then transmits the OFDM symbol through a wireless channel, or demodulates and channel-decodes an OFDM symbol received through a wireless channel and then transfers the demodulated and decoded symbol to a higher layer. Based on the transmission, data input to a protocol entity is called a Service Data Unit (SDU) and data output from a protocol entity is called a Protocol Data Unit (PDU).
  • SDU Service Data Unit
  • PDU Protocol Data Unit
  • FIG. 3 is a signal flow diagram illustrating a typical uplink transmission process in a mobile communication system.
  • a UE 305 transmits a Scheduling Request (SR) to an ENB 310 in order to request transmission resources.
  • SR Scheduling Request
  • the scheduling request is divided into a Dedicated Scheduling Request (D-SR) and a Random Access Scheduling Request (RA-SR).
  • D-SR is transmitted through a dedicated transmission resource allocated to the UE.
  • the transmission resource for the D-SR corresponds to a dedicated transmission resource through which it is possible to transmit 1 bit of information that periodically arrives.
  • a UE possessing the transmission resource for the D-SR transmits the D-SR.
  • the ENB 310 may be unable to allocate the transmission resource for the D-SR to all UEs, and a UE which does not possess the transmission resource for the D-SR notifies the ENB through a random access process that there is data to be transmitted to the ENB, and such a notification is expressed as "an RA-SR is transmitted”.
  • the ENB 310 Upon receiving the scheduling request signal, the ENB 310 allocates uplink transmission resource to the UE 305. Information for allocating uplink transmission resource is called an uplink grant.
  • the ENB 310 transmits the uplink grant to the UE 305 through a downlink scheduling channel.
  • a Cell-Radio Network Temporary Identifier (C-RNTI) is used to identify the UE to which the uplink grant is transmitted.
  • the uplink grant contains information of transmission resources for uplink transmission by the UE, Modulation and Coding Set (MCS) information to be applied to the uplink transmission, and information necessary for a Hybrid Automatic Repeat reQuest (HARQ) operation.
  • MCS Modulation and Coding Set
  • the UE Based on the information contained in the uplink grant, the UE performs an uplink grant at a time point after a predetermined time interval from the time point when the uplink grant has been received. While the UE possesses data to be transmitted, the ENB can continuously allocate the uplink grant to the UE.
  • FIG. 4 illustrates an example of a contention based access in a mobile communication system.
  • a contention based access operation will be described with reference to FIG. 4.
  • an ENB 410 determines to schedule a contention based access transmission resource at a predetermined time point.
  • the predetermined time point may be, for example, a time point when transmission resource is left without being allocated to a UE because the cell does not have a big load. Since the contention based access resource is a transmission resource allocated to unspecified multiple UEs, it is allocated through an identifier, which has been pre-notified (or individually notified to connected UEs), rather than through a C-RNTI, which is a specific identifier of a UE.
  • the identifier, which has been pre-notified (or individually notified to connected UEs), is called a Contention Based-Radio Network Temporary Identifier (CB-RNTI).
  • CB-RNTI Contention Based-Radio Network Temporary Identifier
  • the ENB 410 transmits an uplink grant identified by a CB-RNTI.
  • an uplink grant identified by a CB-RNTI and an uplink grant for contention based access are mixedly used.
  • the UE 405 Upon receiving the uplink grant for contention based access, the UE 405 determines, in step 425, if there is data to be transmitted. When there is data to be transmitted, the UE 405 transmits the data by using the uplink grant for contention based access in step 430.
  • UEs having data to be transmitted include more than one UE having received the uplink grant for contention based access, there is an increasing probability that a collision due to the uplink transmission of step 430 may occur.
  • the first embodiment of the present invention presents a method and an apparatus, which allow only a UE having a remarkable necessity to use an uplink grant (which will hereinafter referred to as contention based uplink grant) for contention based access, in order to minimize the probability that a collision in the uplink transmission for contention based access may occur.
  • contention based uplink grant an uplink grant
  • the state in which use of a contention based uplink grant has been allowed is referred to as a state in which a contention based access has been triggered.
  • the contention based access is triggered or cancelled in connection with an occurrence of a predetermined event described below, and a contention based access can be performed in a state in which the contention based access has been triggered and has not been cancelled yet.
  • the state in which the contention based access has been triggered and has not been cancelled yet is expressed as a state in which a contention based access has been triggered or a contention based access is pending.
  • a UE monitors a downlink control channel to determine if there is an uplink grant scheduled by a CB-RNTI, in order to receive a contention based access.
  • the most important reason for the introduction of a contention based access is to reduce the transmission delay by enabling an uplink transmission even before execution of a separate scheduling request process.
  • a UE having completed a scheduling request process does not have a big necessity for use of a contention based uplink grant.
  • an interval from a time point at which a scheduling request is necessary for example, a time point at which a necessity for an urgent transmission of important data occurs, to a time point at which a scheduling request is actually performed, corresponds to a time interval for which uplink transmission by a contention based uplink grant is most useful.
  • a UE triggers a contention based access when a scheduling request has been triggered, and cancels the contention based access when the scheduling request has been transmitted or canceled.
  • FIG. 5 is a flowchart illustrating an operation of a UE according to the first embodiment of the present invention.
  • step 505 When a scheduling request has been triggered in step 505, the UE 405 proceeds to step 510, in which the UE triggers a contention based access.
  • the scheduling request is triggered when a Buffer Status Report (BSR) has been triggered.
  • BSR Buffer Status Report
  • the UE triggers a contention based access when a BSR has been triggered.
  • a regular BSR is triggered in the following situations.
  • a Buffer Status Report is a message reporting a buffer status of a UE according to a predetermined format and its format is described in 6.1.3.1 of the 3GPP 36.321.
  • a contention based access has been triggered implies that a contention based access can be performed, and a UE monitors whether an uplink grant identified by a CB-RNTI is received while the contention based access has been triggered. Further, when an uplink grant identified by a CB-RNTI has been received, the UE can perform a contention based uplink transmission by using the uplink grant identified by the CB-RNTI.
  • step 515 the UE 405 determines if the scheduling request triggered in step 505 has been transmitted.
  • the UE 405 proceeds to step 525, in which the UE 405 cancels the contention based access.
  • the cancellation of the contention based access implies that the corresponding UE does not use the uplink transmission resource identified by the CB-RNTI any more, which implies that the UE does not perform a monitoring any more for determining if an uplink grant identified by the CB-RNTI is received.
  • step 515 when the scheduling request has not been transmitted yet, the UE 405 proceeds to step 520, in which the UE 405 determines whether the scheduling request is cancelled or not.
  • Conditions for cancellation of the scheduling request are described in 5.4.4 of the 3GPP 36.321.
  • 5.4.4 of the 3GPP 36.321 the scheduling request is cancelled when the BSR is transmitted.
  • the UE 405 proceeds to step 525, in which the UE 405 cancels the contention based access.
  • step 520 when the scheduling request has not been cancelled, the UE 405 maintains the state in which the contention based access has been triggered (or the contention based access is pending) and returns to step 515, in which the UE keeps on performing the monitoring for determining whether to cancel the contention based access.
  • the second embodiment of the present invention presents a solution of prohibiting a contention based uplink transmission during a predetermined time interval after the contention based uplink transmission by a UE.
  • FIG. 6 is a flowchart illustrating an operation of a UE according to the 2-1st embodiment of the present invention.
  • the UE 405 When a contention based access has been triggered, the UE 405 performs the operation as shown in FIG. 6.
  • step 605 the UE 405 performs a monitoring in order to determine if an uplink grant identified by a CB-RNTI, that is, a contention based uplink grant, is received.
  • step 610 the UE 405 determines if a contention based uplink grant has been received.
  • the UE 405 returns to step 605.
  • step 615 the UE 405 determines if a prohibition timer is operating.
  • the UE 405 does not use the contention based uplink grant and returns to step 605.
  • step 615 when a prohibition timer is not operating, the UE 405 proceeds to step 620, in which the UE 405 performs an uplink transmission by using a transmission format and an uplink transmission resource allocated by the received contention based uplink grant. At this time, in order to determine whether to perform an uplink transmission, it is possible to apply another rule.
  • the UE 405 After performing a contention based uplink transmission in step 620, the UE 405 operates the prohibition timer in step 625 and then returns to step 605.
  • FIG. 7 is a flowchart illustrating an operation of a UE according to the 2-2nd embodiment of the present invention.
  • the UE does not monitor the CB-RNTI while a prohibition timer operates.
  • the UE 405 monitors the CB-RNTI in step 705. In other words, the UE 405 performs a monitoring in order to determine if a contention based uplink grant is received. In step 710, the UE 405 determines if a contention based uplink grant has been received. When a contention based uplink grant has not been received, the UE 405 returns to step 705. However, when a contention based uplink grant has been received, the UE 405 proceeds to step 715, in which the UE 405 performs an uplink transmission by using a transmission format and an uplink transmission resource allocated by the received contention based uplink grant.
  • step 710 when a contention based uplink grant has not been received, the UE 405 returns to step 705, in which the UE 405 keeps on monitoring the CB-RNTI.
  • the UE 405 After performing a contention based uplink transmission, the UE 405 operates a predetermined prohibition timer in step 720. Then, in step 725, the UE 405 stops monitoring the CB-RNTI while the prohibition timer is operating. That is, the UE 405 does not perform a predetermined process for determining whether to receive a contention based uplink grant.
  • the prohibition timer expires, the UE 405 returns to step 705.
  • FIG. 8 illustrates a problem that a contention based access may be canceled before a random access process is performed.
  • a UE to which a D-SR transmission resource is not allocated instantly cancels the SR and starts a random access process (step 810).
  • the random access process includes transmission of a random access preamble, reception of a random access response, and settlement of collision, wherein the transmission of a random access preamble is not always possible but is possible only through a pre-allocated random access transmission resource (PRACH resource) 815. Therefore, even after the random access process starts, a random access preamble may be transmitted after passage of a considerable amount of time. Therefore, it is preferable to allow a contention based access even when an SR is cancelled, during an interval 820 from the starting of a random access to the transmission of a random access preamble.
  • PRACH resource pre-allocated random access transmission resource
  • FIG. 9 is a flowchart illustrating an operation of a UE according to the 3-1st embodiment of the present invention.
  • step 905 When an SR is triggered in step 905, the UE 405 proceeds to step 910, in which the UE triggers a contention based access.
  • a contention based access has been triggered implies that a contention based access can be performed, and a UE monitors whether an uplink grant identified by a CB-RNTI is received while the contention based access has been triggered. Further, when an uplink grant identified by a CB-RNTI has been received, the UE can perform a contention based uplink transmission by using the uplink grant identified by the CB-RNTI.
  • step 915 the UE 405 determines if the scheduling request triggered in step 905 has been transmitted.
  • the UE 405 proceeds to step 935, in which the UE 405 cancels the contention based access.
  • the fact that the scheduling request has been already transmitted implies that a D-SR has been transmitted.
  • the cancellation of the contention based access implies that the corresponding UE does not use the uplink transmission resource identified by the CB-RNTI any more, which implies that the UE does not perform any more a monitoring for determining if an uplink grant identified by the CB-RNTI is received.
  • step 915 when the SR has not been transmitted yet, the UE 405 proceeds to step 920, in which the UE 405 determines whether the scheduling request is cancelled or not.
  • step 920 when the SR has not been cancelled, the UE 405 maintains the state in which the contention based access has been triggered and returns to step 915, in which the UE keeps on performing the monitoring for determining whether to cancel the contention based access.
  • step 925 when the scheduling request has been cancelled, the UE 405 proceeds to step 925, in which the UE 405 determines if the cancellation of the SR is due to an initiation of the random access process.
  • the UE 405 proceeds to step 930, in which the UE 405 determines if a random access preamble has been already transmitted in the started random access process.
  • the UE 405 maintains the state in which the contention based access has been triggered and returns to step 915 in order to determine whether to cancel the contention based access.
  • the UE 405 proceeds to step 935, in which the UE 405 cancels the contention based access.
  • FIG. 10 is a flowchart illustrating an operation of a UE according to the 3-2nd embodiment of the present invention.
  • the 3-2nd embodiment of the present invention corresponds to a simplified modification of the 3-1st embodiment of the present invention.
  • step 1005 When an SR is triggered in step 1005, the UE 405 proceeds to step 1010, in which the UE triggers a contention based access.
  • step 1015 the UE 405 determines if a D-SR or a random access preamble has been already transmitted. If a D-SR has been triggered by the SR triggered in step 1005, the UE 405 cancels the contention based access when the D-SR has been transmitted. If an RA-SR has been triggered by the SR triggered in step 1005, the UE 405 cancels the contention based access when the random access preamble has been transmitted. In order to determine if conditions for cancellation of the contention based access are met, the UE 405 proceeds to step 1015, in which the UE 405 determines if any one of the D-SR and the random access preamble has been transmitted.
  • the UE 405 proceeds to step 1020, in which the UE 405 cancels the contention based access.
  • the UE 405 maintains the state in which the contention based access has been triggered, and returns to step 1015 in order to determine whether to cancel the contention based access.
  • FIG. 11 illustrates a problem that a UE performing a discontinuous reception is unable to perform a contention based access before transmission of a scheduling request.
  • a UE may perform a discontinuous reception in order to reduce the power consumption of the UE.
  • the UE monitors a Physical Downlink Control Channel (PDCCH) during only a predetermined time interval according to a predetermined rule, wherein the time interval for the monitoring of the PDCCH is called an active time. Since an uplink grant is transmitted through the PDCCH, a UE performing a discontinuous reception can receive an uplink grant only in the active time.
  • PDCCH Physical Downlink Control Channel
  • a UE performing a discontinuous reception does not instantly shift the active time but shifts to the active time after transmitting a D-SR or a random access preamble.
  • a UE performing a discontinuous reception cannot perform a contention based access.
  • the fourth embodiment of the present invention defines monitoring of a PDCCH by a UE regardless of the active time while a contention based access has been triggered in order to solve the problem described above.
  • FIG. 12 is a flowchart illustrating an operation of a UE according to the fourth embodiment of the present invention.
  • a discontinuous reception is set for the UE 405.
  • the UE 405 receives parameters necessary for the discontinuous reception, such as discontinuous reception (DRX) length and offset, from an ENB, and determines the time point, at which the UE will shift to the active time, by using the parameters.
  • DRX discontinuous reception
  • the UE 405, for which the discontinuous reception is set proceeds to step 1210, in which the UE 405 determines if the sub-frame is included in the active time.
  • Standards for the inclusion of the active time are described in detail in 5.7 of the 3GPP 36.321.
  • the UE 405 identifies a sub-frame in which a predetermined timer, which is operated either periodically or when a particular condition is met, is operating, as a sub-frame belonging to the active time.
  • the UE 405 proceeds to step 1225 in which the UE 405 monitors a PDCCH of the corresponding sub-frame.
  • the UE 405 proceeds to step 1215 in which the UE 405 determines if it is in a state in which a contention based access has been triggered and is not cancelled yet.
  • the UE 405 determines that the corresponding sub-frame belongs to the active time and proceeds to step 1225 in which the UE 405 monitors the PDCCH of the corresponding sub-frame.
  • the UE 405 proceeds to step 1220 in which the UE 405 does not monitor the PDCCH of the corresponding sub-frame.
  • FIG. 13 illustrates a problem that a contention based uplink transmission and a typical uplink transmission are performed in the same sub-frame.
  • a contention based uplink transmission and another uplink transmission may overlap with each other.
  • the UE when a UE has received a contention based uplink grant at the Nth sub-frame, the UE performs an uplink transmission at the (N+4)th sub-frame (1310).
  • the contention based uplink transmission overlaps with another uplink transmission.
  • the fifth embodiment of the present invention presents an operation of a UE when a contention based uplink transmission and another uplink transmission overlap with each other.
  • FIG. 14 is a flowchart illustrating an operation of a UE according to the fifth embodiment of the present invention.
  • the UE 405 When the UE 405 has received a contention based uplink grant in step 1405, the UE 405 performs the determination steps including step 1410 and step 1415 in order to determine whether to perform an uplink transmission by using the contention based uplink grant.
  • the sequence between the determination steps is not important or fixed and can be changed to another sequence.
  • the UE 405 determines if an uplink transmission by the contention based uplink grant received in step 1405 will be performed at the same sub-frame as that for an uplink transmission by a configured uplink grant.
  • the configured uplink grant corresponds to a term having the same meaning as the semi persistent transmission resource, and an ENB may pre-allocate a periodically arriving uplink transmission resource to a UE, which is expressed as "a UE has a configured uplink grant" or "a semi persistent transmission resource has been allocated to a UE".
  • the configured uplink grant is especially proper for a service in which a small-sized packet, such as Voice over Internet Protocol (VoIP), periodically occurs.
  • VoIP Voice over Internet Protocol
  • step 1410 when it is determined that an uplink transmission by the contention based uplink grant received in step 1405 is performed at the same sub-frame as that for an uplink transmission by a configured uplink grant, the UE 405 proceeds to step 1425, in which the UE 405 disregards the received contention based uplink grant and does not perform a contention based uplink transmission.
  • step 1415 the UE 405 determines if a contention based uplink transmission will be performed at the same sub-frame as that for transmission of a Physical Uplink Control Channel (PUCCH).
  • PUCCH Physical Uplink Control Channel
  • the PUCCH is a channel through which uplink control information is transmitted, and the uplink control information transmitted through the PUCCH includes HARQ feedback information, channel status information, and an uplink Sounding Reference Signal (SRS).
  • the uplink control signal is transmitted at a predetermined time point identified by both the UE and the ENB. Therefore, when the UE performs an uplink transmission by a contention based uplink grant instead of transmitting an uplink control signal, the ENB may misidentify an uplink transmission signal by the contention based uplink grant as the uplink control signal and decode the misidentified uplink transmission signal, which may cause a mis-operation.
  • the UE 405 proceeds to step 1425, in which the UE 405 disregards the received contention based uplink grant and does not perform a contention based uplink transmission.
  • the UE 405 proceeds to step 1420 in which the UE 405 performs a contention based uplink transmission at a predetermined sub-frame.
  • a typical uplink grant for an uplink transmission contains transmission resource information, transmission format information, information for an HARQ operation, and other information.
  • Use of the format of a typical uplink grant without change for a contention based access is preferable in view of minimization of change in the standards.
  • the contention based access does not require all information provided by the typical uplink grant, some fields of the typical uplink grant may not be used.
  • the sixth embodiment of the present invention presents a method and an apparatus for providing information of controlling the probability of collision between contention based accesses by using unused fields.
  • Table 1 below show types of sizes of information provided by a typical uplink grant.
  • Table 1 Field Size Format0/Format1A discrimination flag 1 Hopping flag 1 Transmission resource Variable Transmission format (e.g. MCS) 5 New data indicator 1 Transmission output control command 2 Channel status report request 1
  • MCS Transmission resource Variable Transmission format
  • the format0/format 1A discrimination flag is a flag for discrimination between format0, which is an uplink grant, and format1A, which is a downlink grant.
  • This discrimination is information necessary for a case when a destination of a grant is identified by a C-RNTI, which is an identifier specific to a UE. Since a separate identifier named CB-RNTI is used for a contention based uplink grant, this flag is not necessary for the contention based uplink grant.
  • the hopping flag is a one bit flag for indicating whether to perform a hopping at the time of uplink retransmission. Based on an assumption that an HARQ operation is not applied to the contention based uplink grant, the contention based uplink grant does not require the hopping flag, either.
  • the new data indicator is a field necessary for HARQ retransmission in the HARQ operation. As long as the HARQ operation is not applied, the contention based uplink transmission does not require the new data indicator.
  • the transmission output control command is information indicating increase/decrease of an uplink transmission output of a UE, and is useless in the contention based uplink transmission in which an ENB does not know the UE that will perform the uplink transmission.
  • the channel status report request indicates reporting of channel status together with an uplink transmission, and is useless in the contention based uplink transmission in which an ENB does not know the UE that will perform the uplink transmission.
  • unused 6 bits occur in the case of transmitting a contention based uplink grant by using the format of a typical uplink grant.
  • an ENB inserts parameters, which correspond to a contention based access allowance probability (hereinafter, referred to as "access allowance probability”) and a contention based access allowance logical channel priority (hereinafter, referred to as “access allowance logical channel priority”), in the 6 bit information and then transmits the information.
  • access allowance probability a contention based access allowance probability
  • access allowance logical channel priority a contention based access allowance logical channel priority
  • FIG. 15 is a signal flow diagram illustrating an operation between a UE and an ENB according to the sixth embodiment of the present invention.
  • the ENB 1510 determines an access allowance probability and an access allowance logical channel priority, which are to be applied to the contention based access, in step 1515. Further, the ENB 1510 selects parameters corresponding to the access allowance probability and the access allowance logical channel priority determined in step 1520, and inserts the selected parameters in predetermined fields of a contention based uplink grant and transmits the contention based uplink grant.
  • the predetermined fields may include fields of the format0/format 1A discrimination flag, the hopping flag, the new data indicator, the transmission output control command, and the channel status report request.
  • the UE 1505 Upon receiving a contention based uplink grant, the UE 1505 calculates the access allowance probability and the access allowance logical channel priority from the access allowance probability parameter and the access allowance logical channel priority parameter, and determines, by using the information, whether to use a contention based access, in step 1525. As a result of the determination, when use of a contention based access is allowed, the UE 1505 performs an uplink transmission in step 1530.
  • FIG. 16 is a flowchart illustrating an operation of an ENB according to the sixth embodiment of the present invention.
  • step 1605 When a transmission resource that can be used for a contention based access occurs in step 1605, for example, when an uplink transmission resource remaining without being allocated occurs, the ENB 1510 proceeds to step 1610.
  • the ENB 1510 calculates the number of UEs that will monitor a downlink control channel in a sub-frame through which a contention based uplink grant will be transmitted.
  • the number of UEs corresponds to a sum of the number of connected UEs, which do not perform a discontinuous reception, and the number of connected UEs, which are performing a discontinuous reception and have sub-frames in an active time state.
  • the sum corresponds to a maximum number of potential UEs capable of performing a contention based uplink transmission, and the ENB 1510 determines access allowance probability parameter and the access allowance logical channel priority parameter according to the size of the sum in step 1615.
  • the ENB 1510 can determine a low access allowance probability in accordance with the high probability.
  • the ENB 1510 may determine an access allowance logical channel priority parameter that allows only data having a high priority to perform a contention based access.
  • the access allowance probability parameter is a parameter, by which it is possible to calculate a predetermined probability value according to a pre-promised rule.
  • the easiest method is to previously map code points of the access allowance probability parameter to particular probability values. For example, when the access allowance probability parameter has three bits, the relation between them can be determined in advance as shown in Table 2 below.
  • the access allowance probability parameter and the actual allowance probability may be defined by Equation (1) below.
  • K may be a predetermined constant or a settable parameter that can be known from the system information.
  • the relation between the access allowance probability parameter and the actual allowance probability can be calculated as in Table 3 below.
  • the access allowance logical channel priority parameter may indicate the priority by itself, or a mapping relation between the access allowance logical channel priority parameter and the allowance logical channel priority may be set in advance.
  • the relation between the access allowance logical channel priority parameter and the allowance logical channel priority may be defined as in Table 4 below.
  • Table 4 access allowance logical channel priority parameter allowance logical channel priority 0 Priorities higher than priority a 1 Priorities higher than priority b 2 Priorities higher than priority c 3 All priorities
  • the UE 1505 transmits a contention based uplink grant, which contains the determined access allowance probability parameter and the access allowance logical channel priority parameter, at a predetermined sub-frame.
  • FIG. 17 is a flowchart illustrating an operation of a UE according to the sixth embodiment of the present invention.
  • step 1705 the UE 1505 receives a contention based uplink grant.
  • step 1710 the UE 1505 analyzes the access allowance logical channel priority parameter contained in the uplink grant, thereby determining the priority of the data for which the contention based access has been allowed.
  • step 1715 the UE 1505 determines if there is data having a priority, for which a contention based access is allowed, from among stored transmissible data at a corresponding time point.
  • the stored transmissible data includes data having a priority for which a contention based access is allowed
  • the UE 1505 proceeds to step 1720.
  • the stored transmissible data does not include data having a priority for which a contention based access is allowed
  • the UE 1505 proceeds to step 1735.
  • the UE 1505 calculates an actual allowance probability by using the access allowance probability parameter contained in the received uplink grant. This calculation may be performed using either a predetermined equation, such as Equation (1), or a predetermined mapping relation as shown in Table 2.
  • the UE 1505 randomly selects a real number between 0 and 1, and determines if the selected real number is smaller than the allowance probability. When the selected real number is smaller than the allowance probability, which implies that a contention based access has been allowed, the UE 1505 proceeds to step 1730. In contrast, when the selected real number is not smaller than the allowance probability, which implies that a contention based access has not been allowed, the UE 1505 proceeds to step 1735.
  • step 1730 the UE 1505 performs a contention based uplink transmission by referring to transmission format information and transmission resource information contained in the received contention based uplink grant.
  • step 1735 the UE 1505 does not perform a contention based uplink transmission.
  • FIG. 18 is a block diagram illustrating a UE apparatus according to an embodiment of the present invention.
  • a UE apparatus includes a multiplexer/demultiplexer 1805, an HARQ processor 1810, an SR/BSR control unit 1815, an access control unit 1820, and a transmission/reception unit 1825.
  • the HARQ processor 1810 corresponds to a set of soft buffers configured to perform an HARQ operation and is identified by an HARQ process identifier.
  • the multiplexer/demultiplexer 1805 configures a MAC PDU by concatenating data transferred from multiple logical channels or demultiplexes a MAC PDU into MAC SDUs and transfers the MAC SDUs to proper logical channels.
  • the SR/BSR control unit 1815 monitors occurrence of higher layer data and determines whether to perform a BSR trigger. When the BSR is triggered, the SR/BSR control unit 1815 triggers an SR and reports it to the access control unit 1820. When the triggered SR is cancelled, the SR/BSR control unit 1815 reports it to access control unit 1820.
  • the access control unit 1820 analyzes a contention based uplink grant and a typical uplink grant received through a downlink control channel and causes the transmission/reception unit 1825 to perform an uplink transmission.
  • the access control unit 1820 controls a contention based access trigger.
  • the access control unit 1820 receives a report about whether to perform an SR trigger from the SR/BSR control unit 1815, triggers a contention based access when an SR has been triggered, and cancels the contention based access when an SR has been transmitted or canceled.
  • the access control unit 1820 controls the transmission/reception unit 1825, so as to receive and decode an uplink grant identified by a predetermined identifier, such as a CB-RNTI.
  • the transmission/reception unit 1825 performs a contention based uplink transmission based on information of the decoded contention based uplink grant.
  • the access control unit 1820 controls the transmission/reception unit 1825, so as to operate a predetermined timer whenever performing a contention based uplink transmission and to prevent decoding of a contention based uplink grant even in a state in which a contention based uplink access has been triggered while the timer operates.
  • the access control unit 1820 controls the transmission/reception unit 1825, so as to prevent cancellation of a contention based access before a random access preamble is transmitted in the case in which the cancellation of the SR is due to an initiation of the random access process.
  • the access control unit 1820 controls the transmission/reception unit 1825, so as to maintain the active time in a state in which a contention based access has been triggered.
  • the access control unit 1820 determines if a contention based uplink transmission collides with an uplink control signal transmission or a configured uplink transmission and controls the transmission/reception unit 1825, so as to perform an uplink control signal transmission or a configured uplink transmission when a collision occurs.
  • the access control unit 1820 determines whether to perform a contention based uplink transmission by referring to a contention based access allowance logical channel priority parameter and a contention based access allowance probability parameter contained in a contention based uplink grant.
  • the transmission/reception unit 1825 transmits or receives a MAC PDU, control information, or an HARQ packet through a wireless channel.
  • FIG. 19 is a block diagram illustrating a structure of an ENB apparatus according to an embodiment of the present invention.
  • an ENB apparatus includes a multiplexer/demultiplexer 1905, an HARQ processor 1910, a transmission/reception unit 1915, a contention based uplink grant controller 1920, a scheduler 1925, and a UE context management unit 1930.
  • the multiplexer/demultiplexer 1905 configures a MAC PDU by concatenating data transferred from multiple logical channels or demultiplexes a MAC PDU into MAC SDUs and transfers the MAC SDUs to proper logical channels.
  • the HARQ processor 1910 corresponds to a set of soft buffers configured to perform an HARQ operation and is identified by an HARQ process identifier.
  • the transmission/reception unit 1915 transmits or receives a MAC PDU or control information through a wireless channel.
  • the contention based uplink grant controller 1920 determines whether to generate a contention based uplink grant in consideration of an uplink transmission resource situation. Further, in consideration of the number of potential contention based access UEs transferred from the UE context management unit 1930, the contention based uplink grant controller 1920 determines a contention based access allowance probability parameter and a contention based access allowance logical channel priority parameter and then transfers them to the scheduler 1925.
  • the scheduler 1925 determines the transmission resource to be allocated and the UE to which the transmission resource is to be allocated, in consideration of the priority and the quantity of the reported uplink data, and the channel situation of the UE, generates an uplink grant based on the determination, and transfers the generated uplink grant. Further, the scheduler 1925 controls the transmission/reception unit 1915, so as to receive and decode an uplink transmission based on the uplink grant. Further, the scheduler 1925 reports an uplink transmission resource, which remains after being allocated, to the contention based uplink grant controller 1920.
  • the UE context management unit 1930 is an apparatus for managing information on UEs operating in a connected state within a cell.
  • the information managed by the UE context management unit 1930 includes, for example, a UE identifier, information on whether a discontinuous reception has been set for each UE, and an active time.
  • the contention based uplink grant controller 1920 requests for the number of potential contention based access UEs of a particular sub-frame
  • the UE context management unit 1930 obtains the number of potential contention based access UEs by referring to the discontinuous reception setting of the UEs, etc., and reports the obtained number of UEs to the contention based uplink grant controller 1920.

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

Abstract

L'invention concerne un procédé de réalisation d'un accès basé sur la concurrence dans un UE d'un système de communication entre mobiles. Le procédé comporte les étapes consistant à : déclencher un BSR vers un ENB lorsque des données à émettre vers l'ENB se présentent ; et déclencher l'accès basé sur la concurrence lorsque le BSR a été déclenché. Le procédé est susceptible de minimiser les collisions entre des signaux émis en voie montante par des UE multiples par l'intermédiaire de ressources d'émission basées sur la concurrence dans un système de communication entre mobiles.
PCT/KR2010/008858 2009-12-10 2010-12-10 Appareil et procédé de réalisation d'un accès basé sur la concurrence dans un système de communication entre mobiles WO2011071341A2 (fr)

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US20130010712A1 (en) 2013-01-10
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