US20140192767A1 - System and Method for Small Traffic Transmissions - Google Patents

System and Method for Small Traffic Transmissions Download PDF

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Publication number
US20140192767A1
US20140192767A1 US13/911,716 US201313911716A US2014192767A1 US 20140192767 A1 US20140192767 A1 US 20140192767A1 US 201313911716 A US201313911716 A US 201313911716A US 2014192767 A1 US2014192767 A1 US 2014192767A1
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US
United States
Prior art keywords
mobile device
grant
resources
packet
transmission code
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
Application number
US13/911,716
Other languages
English (en)
Inventor
Kelvin Kar Kin Au
Jianglei Ma
Hosein Nikopour
Alireza Bayesteh
Petar Djukic
Liqing Zhang
Peiying Zhu
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Huawei Technologies Co Ltd
FutureWei Technologies Inc
Original Assignee
Huawei Technologies Co Ltd
FutureWei Technologies Inc
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 Huawei Technologies Co Ltd, FutureWei Technologies Inc filed Critical Huawei Technologies Co Ltd
Priority to US13/911,716 priority Critical patent/US20140192767A1/en
Assigned to FUTUREWEI TECHNOLOGIES, INC. reassignment FUTUREWEI TECHNOLOGIES, INC. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: ZHU, PEIYING, AU, Kelvin Kar Kin, Bayesteh, Alireza, DJUKIC, PETAR, MA, JIANGLEI, NIKOPOUR, HOSEIN, ZHANG, LIQING
Priority to KR1020187011561A priority patent/KR20180043860A/ko
Priority to CN201380063848.2A priority patent/CN104838713B/zh
Priority to KR1020177009903A priority patent/KR20170042830A/ko
Priority to CN201910402283.5A priority patent/CN110138508B/zh
Priority to CN201910401696.1A priority patent/CN110213824B/zh
Priority to KR1020157018891A priority patent/KR101728021B1/ko
Priority to PCT/CN2013/089545 priority patent/WO2014090200A1/en
Priority to EP19161783.6A priority patent/EP3570612A1/en
Priority to JP2015546837A priority patent/JP6139695B2/ja
Priority to EP13861605.7A priority patent/EP2929744B1/en
Priority to CN201910401999.3A priority patent/CN110213825B/zh
Publication of US20140192767A1 publication Critical patent/US20140192767A1/en
Assigned to HUAWEI TECHNOLOGIES CO., LTD. reassignment HUAWEI TECHNOLOGIES CO., LTD. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: FUTUREWEI TECHNOLOGIES, INC.
Priority to JP2017013003A priority patent/JP6451957B2/ja
Priority to US15/962,525 priority patent/US10945243B2/en
Priority to US15/962,637 priority patent/US10945244B2/en
Abandoned legal-status Critical Current

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    • H04W72/0413
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L1/00Arrangements for detecting or preventing errors in the information received
    • H04L1/004Arrangements for detecting or preventing errors in the information received by using forward error control
    • H04L1/0045Arrangements at the receiver end
    • 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
    • H04W72/042
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/20Control channels or signalling for resource management
    • H04W72/23Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W74/00Wireless channel access
    • H04W74/08Non-scheduled access, e.g. ALOHA
    • H04W74/0866Non-scheduled access, e.g. ALOHA using a dedicated channel for access
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/04Wireless resource allocation
    • H04W72/044Wireless resource allocation based on the type of the allocated resource
    • H04W72/0466Wireless resource allocation based on the type of the allocated resource the resource being a scrambling code

Definitions

  • the present invention relates to a system and method for wireless communications, and, in particular embodiments, to a system and method for small traffic transmissions.
  • both downlink (DL) and uplink (UL) transmissions utilize scheduling-based access, meaning that network resources (e.g., time-frequency resources) are allocated for each transmission.
  • the scheduling-based access typically comprises either dynamic scheduling or semi-static scheduling.
  • dynamic scheduling the user equipment (UE) and base station (BS) will communicate grant based signaling for each transmission time interval (TTI).
  • semi-static scheduling the UE and BS will communicate grant based signaling for blocks of TTIs.
  • Dynamic scheduling may allow the UE and BS to achieve fast link adaptation, while semi-static signaling may produce less signaling overhead.
  • another method for communicating data includes identifying a search space for a group of mobile devices.
  • the search space includes resources of a downlink channel.
  • the method further includes determining a set of candidate transmission codes associated with the search space, and receiving a packet communicated in the search space using blind detection.
  • the search space comprises resources of a downlink channel, and the packet is communicated in accordance with a first transmission code in the set of candidate transmission codes.
  • An apparatus for performing this method is also provided.
  • yet another method for communicating data includes identifying an access space for a group of mobile devices.
  • the access space comprises resources of an uplink channel.
  • the method further comprises determining a first transmission code in a set of transmission codes for a first mobile device in the group of mobile devices, and transmitting a packet over the resources of the uplink channel using the first transmission code without obtaining an uplink grant.
  • An apparatus for performing this method is also provided.
  • yet another method for communicating data includes identifying an access space for a group of mobile devices.
  • the access space comprises resources of an uplink channel.
  • the method further comprises identifying a set of transmission codes associated with access space, and receiving packets communicated over the resources of the uplink channel using blind detection.
  • An apparatus for performing this method is also provided.
  • a method for advertising grant-free communication mode capabilities includes communicating capability information between a mobile device and a base station.
  • the capability information indicates a grant-free communication mode capability.
  • the method further comprises communicating grant-free signaling parameters between the mobile device and the base station.
  • the grant-free signaling parameters define a search space or an access space for the grant-free communication mode.
  • An apparatus for performing this method is also provided.
  • FIG. 1 illustrates a diagram of a wireless network for communicating data
  • FIG. 2 illustrates a diagram of another wireless network for communicating data
  • FIG. 3 illustrates a diagram of an embodiment downlink data channel for carrying grant free small packet transmissions
  • FIG. 4 illustrates a flowchart of an embodiment method for communicating grant free small packet transmissions in a downlink data channel
  • FIG. 5 illustrates a flowchart of an embodiment method for receiving grant free small packet transmissions in a downlink data channel
  • FIG. 6 illustrates a diagram of an embodiment downlink data channel for carrying grant free small packet transmissions
  • FIG. 8 illustrates a flowchart of an embodiment method for receiving grant free small packet transmissions over an uplink data channel
  • FIG. 10 illustrates a block diagram of an embodiment communications device.
  • the grant based signaling is communicated via a physical uplink control channel (PUCCH) and/or physical downlink control channel (PDCCH). More specifically, downlink transmission parameters, (e.g., modulation and coding scheme (MCS), channel resource allocation, multiple-input multiple output (MIMO) transmission mode, etc.) and uplink grant assignments are traditionally communicated through the PDCCH, while uplink grant requests are signaled through the PUCCH.
  • MCS modulation and coding scheme
  • MIMO multiple-input multiple output
  • Many future applications will rely on small packet transmissions, including for example, real time gaming, instant messaging, machine-to-machine (M2M) communications, status update messaging, etc. Communicating small packet transmissions using conventional scheduling-based transmission techniques may be relatively inefficient and/or undesirable.
  • dynamic scheduling may generate significant amounts of overhead compared to the small packet communication's payload size, while semi-persistent scheduling may be unable to meet the QoS requirements for delay sensitive small traffic transmission. Accordingly, an alternative communication scheme for small packet transmissions is desired.
  • aspects of this disclosure provide a grant-free transmission mode for small traffic transmissions in downlink and uplink data channels of a wireless network.
  • a base station transmits packets to a group of UEs in a search space without communicating any transmission code assignments to the UEs.
  • the UEs receive the downlink packets using blind detection.
  • UEs transmit packets in an access space using assigned access codes which are either independently derived by the UEs or otherwise communicated by the base station using a slow-signaling channel. In any event, UEs can make small traffic transmissions without waiting for uplink grant requests.
  • grant-free transmissions refer to data transmissions that are performed without communicating grant-based signaling in a dynamic control channel, such as a PUCCH or PDCCH. Grant-free transmissions can include uplink or downlink transmissions, and should be interpreted as such unless otherwise specified.
  • FIG. 1 illustrates a network 100 for communicating data.
  • the network 100 comprises an access point (AP) 110 having a coverage area 112 , a plurality of user equipments (UEs) 120 , and a backhaul network 130 .
  • the AP 110 may comprise any component capable of providing wireless access by, inter alia, establishing uplink (dashed line) and/or downlink (dotted line) connections with the UEs 120 , such as a base station, an enhanced base station (eNB), a femtocell, and other wirelessly enabled devices.
  • the UEs 120 may comprise any component capable of establishing a wireless connection with the AP 110 .
  • the backhaul network 130 may be any component or collection of components that allow data to be exchanged between the AP 110 and a remote end (not shown).
  • the network 100 may comprise various other wireless devices, such as relays, femtocells, etc.
  • FIG. 2 illustrates a wireless communications network 200 comprising a plurality of base stations (BS) providing voice and/or data wireless communication service to a plurality of mobile stations (MSs).
  • the BSs may be referred to by other names such as access network (AN) elements, access points (APs), Node-Bs, eNBs, or any other network device configured to communicate with MSs in the wireless communications network 200 .
  • AN access network
  • APs access points
  • Node-Bs Node-Bs
  • eNBs evolved Node-Bs
  • Each BS has a corresponding coverage area for communicating data, and coverage areas of adjacent BSs may overlap in order to accommodate handoffs.
  • BSs may include schedulers for allocating radio resources.
  • FIG. 3 illustrates a downlink data channel 300 for carrying grant-free small packet transmissions.
  • different groups of UEs are assigned different search spaces comprising time-frequency resources of the downlink data channel 300 .
  • UEs within a given group are assigned individual transmission codes.
  • Transmission codes may include various types of sequences, such as low density signatures, code division multiple access signatures, pseudo noise (PN) sequences, Zadoff-Chu sequences, Walsh-Hadamard codes, and others.
  • the transmission codes can be obtained from the codewords defined in a codebook or metrics.
  • individual transmission codes are assigned exclusively to individual UEs to achieve unicast transmission.
  • an individual codeword is assigned to a multicast group of users to achieve multicast transmission.
  • the search space for a group of UEs may be defined, for example, as a specific downlink channel resources (e.g., time, frequency, spatial etc.) over which transmissions for the group are communicated.
  • the search space may be assigned by the network or derived from a UE connection signature.
  • the arrival time of the packet may be unpredictable, so multiple detection trials may be used.
  • multiple transmission codes and/or search spaces can be allocated to a UE requiring more bandwidth.
  • FIG. 4 illustrates a method 400 for sending grant-free transmissions in a downlink data channel, as might be performed by a base station.
  • the method 400 begins at step 410 , where the base station allocates time frequency resources of a downlink data channel as a search space for a group of UEs. Thereafter, the method 400 proceeds to step 420 , where the base station assigns candidate transmission codes to individual UEs in the group of UEs. Notably, while the transmission code assignments are known to the base station, the transmission code assignments are not communicated to UEs. Subsequently, the method 400 proceeds to step 430 , where the base station transmits packets over the resources in accordance with the predefined codes. Notably, the packets are transmitted without communicating any transmission code assignments to the group of UEs.
  • FIG. 5 illustrates a method 500 for receiving grant-free transmissions in a downlink data channel, as might be performed by a mobile device.
  • the mobile device may be a user equipment, a mobile station, or any other device configured to receive wireless transmissions from a base station.
  • the method 500 begins with step 510 , where the mobile device identifies a search space for a group of UEs to which the mobile device belongs. Thereafter, the method 500 proceeds to step 520 , where the mobile station determines a set of candidate transmission codes associated with the search space.
  • the set of candidate transmission codes may be identified via a priori information, or in accordance with control information communicated by the base station (e.g., during initialization, via a slow-signaling channel, etc.).
  • the method 500 proceeds to step 530 , where the mobile station receives a packet communicated in the search space using blind detection. More specifically, the mobile station may perform blind detection by decoding packets communicated in the search space using corresponding transmission codes in the set of candidate transmission codes. The mobile station may then perform a cyclic redundancy check (CRC) on each decoded packet to verify which of the packets was destined for the mobile station.
  • the packet destined for the mobile station includes an identifier associated with the mobile station, e.g., a UE identifier, etc.
  • the CRC is masked by a mobile device connection ID associated with the mobile device.
  • the mobile station may be able to decode other UEs' packets if the mobile station has knowledge of the other UEs' information. Examples of such information are other UEs' IDs or a group ID.
  • Embodiments of non-adaptive transmission include a predefined modulation level and/or a predefined possible coding level, and also a repetition pattern.
  • FIG. 6 illustrates a diagram of an uplink data channel 600 for carrying grant free small packet transmissions.
  • different groups of UEs are assigned different access spaces comprising time-frequency resources of the uplink data channel 600 .
  • UEs within a given group are assigned individual access codes.
  • the access codes may include various types of sequences, such as low density signatures, code division multiple access signatures, pseudo noise (PN) sequences, Zadoff-Chu sequences, Walsh-Hadamard codes, and others.
  • PN pseudo noise
  • an individual access code is used by a single user to achieve contention-free access in the uplink channel.
  • an individual access code is used by multiple users to perform transmissions over the access space in a contentious manner.
  • the access space and/or access code may be assigned by the network or derived from a prior information or information communicated over a slow-signaling channel.
  • the information used to derive the access code/spaces are predefined rules known by the network and UEs, e.g. UE connection signatures, UE IDs, etc.
  • more access space and/or access codes can be assigned to a UE that needs more bandwidth.
  • the base station detects the UL packets by trying all possible access codes assigned to the predefined access space.
  • the base station identifies the UE through CRC checking or header identification.
  • Embodiments of non-adaptive transmission include a predefined modulation level, a predefined possible coding level, a repetition pattern, or combinations thereof.
  • FIG. 7 illustrates a method 700 for sending grant free transmissions in an uplink data channel, as might be performed by a mobile station.
  • the method 700 begins at step 710 , the mobile station identifies an access space for a group of UEs. Thereafter, the method 700 proceeds to step 720 , where the mobile station identifies assigned access codes associated with the access space.
  • the mobile station independently derives the assigned access code in accordance with some pre-defined rules known at the base station and mobile stations.
  • the assigned access code is communicated by the base station via a slow-signaling channel.
  • the mobile station derives the assigned access code from an access code set in accordance with some pre-defined rules such that the base station only needs to announce a pre-defined access code set comprising all possible codes associated with the predefined access resources. Subsequently, the method 700 proceeds to step 730 , where the mobile station transmits the packet in the access space using the selected access code. The packet is transmitted without obtaining an uplink grant.
  • FIG. 8 illustrates a method 800 for receiving grant-free transmissions in an uplink data channel, as might be performed by a base station.
  • the method 800 begins with step 810 , where the base station identifies an access space for a group of UEs to which the mobile device belongs. Thereafter, the method 800 proceeds to step 820 , where the base station determines a set of candidate access codes associated with the access space. Subsequently, the method 800 proceeds to step 830 , where the base station receives a packet communicated in the access space using blind detection. More specifically, the base station may perform blind detection by decoding packets communicated in the access space using corresponding access codes in the set of candidate access codes.
  • the base station may then perform a cyclic redundancy check (CRC) on each decoded packet and identify the mobile station.
  • CRC cyclic redundancy check
  • the packet destined for the base station includes an identifier associated with the mobile station, e.g., a UE identifier, etc.
  • the CRC is masked by a mobile device connection ID associated with the mobile device.
  • Access codes may be defined differently in various embodiments.
  • the network may define orthogonal pseudo-orthogonal code sets or codebooks, such as low density signature (LDS), code division multiple access (CDMA), pseudo-random noise (PN) sequence, Zadoff-chu (ZC) sequence, Walsh-Hadamard code, and other sparse multiple access codes.
  • the code set or codebook may typically be known by both the base station and the mobile terminals. The mobile terminals may select one or multiple codes from the code set to transmit small packets.
  • a semi-static transmission mode configuration is signaled to the UE through the broadcast channel.
  • the broadcast signaling may indicate whether a grant-free transmission mode is supported by the network, as well as traffic types or other parameters associated with the grant-free transmission mode.
  • the network may support grant-free transmission mode in the downlink channel, the uplink channel, or both, and may indicate such capability via broadcast transmission (or otherwise).
  • the UE may advertise or otherwise indicate a grant-free transmission mode capability (or lack thereof) when accessing the network. For example, the UE may indicate whether the UE is capable of performing grant-free transmission over the uplink channel and/or receiving grant-free transmissions over the downlink channel.
  • Modulation and Coding Scheme (MCS) settings can be updated through the broadcast channel or other slow-signaling channel.
  • the search space and the access space for each UE may be determined by the network in accordance with the UE connection ID, geometry location, active traffic/service types, or other criteria.
  • the defined search space and access space can be signaled to the UEs through the broadcast channel.
  • the search space and access space can be updated and signaled to the UEs through the slow-signaling channel.
  • the maximum size of code set and the formation of the code set can also be updated and signaled to the UE through the slow signaling channel.
  • FIG. 9 is a block diagram of a processing system that may be used for implementing the devices and methods disclosed herein. Specific devices may utilize all of the components shown, or only a subset of the components, and levels of integration may vary from device to device. Furthermore, a device may contain multiple instances of a component, such as multiple processing units, processors, memories, transmitters, receivers, etc.
  • the processing system may comprise a processing unit equipped with one or more input/output devices, such as a speaker, microphone, mouse, touchscreen, keypad, keyboard, printer, display, and the like.
  • the processing unit may include a central processing unit (CPU), memory, a mass storage device, a video adapter, and an input/output (I/O) interface connected to a bus.
  • the bus may be one or more of any type of several bus architectures including a memory bus or memory controller, a peripheral bus, video bus, or the like.
  • the CPU may comprise any type of electronic data processor.
  • the memory may comprise any type of system memory such as static random access memory (SRAM), dynamic random access memory (DRAM), synchronous DRAM (SDRAM), read-only memory (ROM), a combination thereof, or the like.
  • SRAM static random access memory
  • DRAM dynamic random access memory
  • SDRAM synchronous DRAM
  • ROM read-only memory
  • the memory may include ROM for use at boot-up, and DRAM for program and data storage for use while executing programs.
  • the mass storage device may comprise any type of storage device configured to store data, programs, and other information and to make the data, programs, and other information accessible via the bus.
  • the mass storage device may comprise, for example, one or more of a solid state drive, hard disk drive, a magnetic disk drive, an optical disk drive, or the like.
  • the video adapter and the I/O interface provide interfaces to couple external input and output devices to the processing unit.
  • input and output devices include the display coupled to the video adapter and the mouse/keyboard/printer coupled to the I/O interface.
  • Other devices may be coupled to the processing unit, and additional or fewer interface cards may be utilized.
  • a serial interface such as Universal Serial Bus (USB) (not shown) may be used to provide an interface for a printer.
  • USB Universal Serial Bus
  • the processing unit also includes one or more network interfaces, which may comprise wired links, such as an Ethernet cable or the like, and/or wireless links to access nodes or different networks.
  • the network interface allows the processing unit to communicate with remote units via the networks.
  • the network interface may provide wireless communication via one or more transmitters/transmit antennas and one or more receivers/receive antennas.
  • the processing unit is coupled to a local-area network or a wide-area network for data processing and communications with remote devices, such as other processing units, the Internet, remote storage facilities, or the like.
  • FIG. 10 illustrates a block diagram of an embodiment of a communications device 1000 , which may be equivalent to one or more devices (e.g., UEs, NBs, etc.) discussed above.
  • the communications device 1000 may include a processor 1004 , a memory 1006 , a cellular interface 1010 , a supplemental interface 1012 , and a backhaul interface 1014 , which may (or may not) be arranged as shown in FIG. 10 .
  • the processor 1004 may be any component capable of performing computations and/or other processing related tasks
  • the memory 1006 may be any component capable of storing programming and/or instructions for the processor 1004 .
  • the cellular interface 1010 may be any component or collection of components that allows the communications device 1000 to communicate using a cellular signal, and may be used to receive and/or transmit information over a cellular connection of a cellular network.
  • the supplemental interface 1012 may be any component or collection of components that allows the communications device 1000 to communicate data or control information via a supplemental protocol.
  • the supplemental interface 1012 may be a non-cellular wireless interface for communicating in accordance with a Wireless-Fidelity (Wi-Fi) or Bluetooth protocol.
  • Wi-Fi Wireless-Fidelity
  • the supplemental interface 1012 may be a wireline interface.
  • the backhaul interface 1014 may be optionally included in the communications device 1000 , and may comprise any component or collection of components that allows the communications device 1000 to communicate with another device via a backhaul network.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Mobile Radio Communication Systems (AREA)
US13/911,716 2012-12-14 2013-06-06 System and Method for Small Traffic Transmissions Abandoned US20140192767A1 (en)

Priority Applications (15)

Application Number Priority Date Filing Date Title
US13/911,716 US20140192767A1 (en) 2012-12-14 2013-06-06 System and Method for Small Traffic Transmissions
CN201910401999.3A CN110213825B (zh) 2012-12-14 2013-12-16 用于小业务传输的系统和方法
EP19161783.6A EP3570612A1 (en) 2012-12-14 2013-12-16 System and method for uplink grant-free transmission scheme
EP13861605.7A EP2929744B1 (en) 2012-12-14 2013-12-16 System and method for small traffic transmissions
KR1020177009903A KR20170042830A (ko) 2012-12-14 2013-12-16 작은 트래픽 전송을 위한 시스템 및 방법
CN201910402283.5A CN110138508B (zh) 2012-12-14 2013-12-16 用于小业务传输的系统和方法
CN201910401696.1A CN110213824B (zh) 2012-12-14 2013-12-16 用于小业务传输的系统和方法
KR1020157018891A KR101728021B1 (ko) 2012-12-14 2013-12-16 작은 트래픽 전송을 위한 시스템 및 방법
PCT/CN2013/089545 WO2014090200A1 (en) 2012-12-14 2013-12-16 System and method for small traffic transmissions
KR1020187011561A KR20180043860A (ko) 2012-12-14 2013-12-16 작은 트래픽 전송을 위한 시스템 및 방법
JP2015546837A JP6139695B2 (ja) 2012-12-14 2013-12-16 小トラフィック伝送のためのシステムおよび方法
CN201380063848.2A CN104838713B (zh) 2012-12-14 2013-12-16 用于小业务传输的系统和方法
JP2017013003A JP6451957B2 (ja) 2012-12-14 2017-01-27 小トラフィック伝送のためのシステムおよび方法
US15/962,525 US10945243B2 (en) 2012-12-14 2018-04-25 System and method for small traffic transmissions
US15/962,637 US10945244B2 (en) 2012-12-14 2018-04-25 System and method for small traffic transmissions

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US201261737636P 2012-12-14 2012-12-14
US13/911,716 US20140192767A1 (en) 2012-12-14 2013-06-06 System and Method for Small Traffic Transmissions

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US15/962,637 Continuation US10945244B2 (en) 2012-12-14 2018-04-25 System and method for small traffic transmissions
US15/962,525 Continuation US10945243B2 (en) 2012-12-14 2018-04-25 System and method for small traffic transmissions

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US20140192767A1 true US20140192767A1 (en) 2014-07-10

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US13/911,716 Abandoned US20140192767A1 (en) 2012-12-14 2013-06-06 System and Method for Small Traffic Transmissions
US15/962,525 Active US10945243B2 (en) 2012-12-14 2018-04-25 System and method for small traffic transmissions
US15/962,637 Active US10945244B2 (en) 2012-12-14 2018-04-25 System and method for small traffic transmissions

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US15/962,525 Active US10945243B2 (en) 2012-12-14 2018-04-25 System and method for small traffic transmissions
US15/962,637 Active US10945244B2 (en) 2012-12-14 2018-04-25 System and method for small traffic transmissions

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US (3) US20140192767A1 (zh)
EP (2) EP2929744B1 (zh)
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KR (3) KR101728021B1 (zh)
CN (4) CN110138508B (zh)
WO (1) WO2014090200A1 (zh)

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US20160150525A1 (en) * 2014-11-25 2016-05-26 Qualcomm Incorporated Low latency physical layer design for contention-based uplink channels
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WO2016093972A1 (en) * 2014-12-11 2016-06-16 Qualcomm Incorporated Traffic data allocations in low latency lte downlink communications
WO2016119651A1 (en) * 2015-01-27 2016-08-04 Huawei Technologies Co., Ltd. System and method for transmission in grant-free uplink transmission scheme
WO2016192597A1 (en) 2015-05-29 2016-12-08 Huawei Technologies Co., Ltd. System and method of ue-centric radio access procedure
WO2016206006A1 (zh) * 2015-06-24 2016-12-29 华为技术有限公司 上行数据传输的方法和装置
WO2017000900A1 (zh) * 2015-06-30 2017-01-05 华为技术有限公司 传输信息的方法和设备
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