| H04L27/2601 | Multicarrier modulation systems | 2.369 |
| H04L5/0053 | Allocation of signaling i.e. of overhead other than pilot signals | 2.369 |
| H04L5/0007 | the frequencies being orthogonal e.g. OFDM(A) DMT | 2.291 |
| H04L5/0037 | Inter-user or inter-terminal allocation | 1.233 |
| H04W28/06 | Optimizing | the usage of the radio link| e.g. header compression information sizing | discarding information | system modifying transmission characteristic according to link quality by modifying frame length | (ref: H04L1/0007)| | dynamic adaptation of the packet size for flow control or congestion control | (ref: H04L47/365) | 1.233 |
| H04L49/9094 | Arrangements for simultaneous transmit and receive e.g. simultaneous reading/writing from/to the storage element | 1.222 |
| H04W72/04 | Wireless resource allocation | 1.204 |
| H04L5/0023 | Time-frequency-space | 1.162 |
| H04W72/042 | in downlink direction of a wireless link i.e. towards terminal | 1.162 |
| H04L5/0046 | Determination of how many bits are transmitted on different sub-channels | 1.159 |
| H04W16/32 | Hierarchical cell structures | 1.159 |
| H04L1/1887 | Scheduling and prioritising arrangements | 1.154 |
| H04L1/1812 | Hybrid protocols | 1.135 |
| H04L5/0005 | Time-frequency | 1.135 |
| H04W28/04 | Error control | 1.135 |
| H04L5/0091 | Signaling for the administration of the divided path | 1.135 |
| H04W72/121 | for groups of terminals or users | 1.135 |
| H04L27/26 | Systems using multi-frequency codes | (ref: H04L27/32)| takes precedence | 1.134 |
| H04W88/00 | Devices specially adapted for wireless communication networks e.g. terminals base stations or access point devices | 1.121 |
| H04L5/0092 | Indication of how the channel is divided | 1.119 |
| H04W72/0453 | the resource being a frequency carrier or frequency band | 1.119 |
| H04N21/2385 | Channel allocation | (ref: H04N21/266)| takes precedence| Bandwidth allocation | (ref: H04N21/24)| takes precedence | | allocation of channels according to the instantaneous demands of the users in time-division multiplex systems | (ref: H04J3/1682)| | admission control resource allocation in open networks | (ref: H04L12/5692)| | arrangements for maintenance or administration in data switching networks involving bandwidth and capacity management | (ref: H04L41/0896)| | negotiating bandwidth in wireless networks | (ref: H04W28/16) | 1.114 |
| H04L12/1881 | with schedule organisation e.g. priority sequence management | 1.114 |
| H04L1/0003 | by switching between different modulation schemes | 1.114 |
| H04W72/044 | where an allocation plan is defined based on the type of the allocated resource | 1.114 |
| H04L1/0016 | involving special memory structures e.g. look-up tables | 1.114 |
| H04W36/18 | for allowing seamless reselection e.g. soft reselection | 1.109 |
| H04L5/006 | Quality of the received signal e.g. BER SNR water filling | 1.103 |
| H04L5/0058 | Allocation criteria | 1.103 |
| H04L5/0044 | allocation of payload | 1.102 |
| H04W72/0406 | involving control information exchange between nodes | 1.102 |
| H04L1/1854 | Scheduling and prioritising arrangements | 1.102 |
| H04L27/2602 | Signal structure | 1.102 |
| H04W74/004 | in the uplink i.e. towards network | 1.100 |
| H04L5/0048 | Allocation of pilot signals i.e. of signals known to the receiver | 1.100 |
| H04B1/7103 | the interference being multiple access interference | 1.092 |
| H04L1/16 | in which the return channel carries supervisory signals e.g. repetition request signals | 1.092 |
| H04L1/001 | applied to control information | 1.092 |
| H04L1/0072 | Error control for data other than payload data e.g. control data | 1.090 |
| H04L1/0055 | MAP-decoding | 1.090 |
| H04L1/14 | in which the signals are sent back to the transmitter to be checked | echo systems | 1.089 |
| H04L1/0067 | Rate matching | (ref: H04L1/0013)| and | (ref: H04L1/08)| take precedence | 1.089 |
| H04W68/02 | Arrangements for increasing efficiency of notification or paging channel | 1.088 |
| H04L5/003 | Arrangements for allocating sub-channels of the transmission path | 1.084 |
| H04B7/155 | Ground-based stations | (ref: H04B7/204)| takes precedence | | for satellite systems | (ref: H04B7/18517) | 1.080 |
| H04B7/14 | Relay systems | 1.080 |
| H04W88/04 | adapted for relaying to or from another terminal or user | 1.080 |
| H04L1/0009 | by adapting the channel coding | (ref: H04L1/1812)| takes precedence | 1.079 |
| H04L1/0004 | applied to control information | 1.079 |
| H04L5/0094 | Indication of how sub-channels of the path are allocated | 1.076 |
| H04B7/2656 | for structure of frame burst | 1.075 |
| H04B7/02 | Diversity systems| Multi-antenna system i.e. transmission or reception using multiple antennas | RAKE receivers | (ref: H04B1/7115) | 1.074 |
| H04L27/2613 | Structure of the reference signals | per se | 1.073 |
| H04B7/2621 | using frequency division multiple access [FDMA] | (ref: H04B7/2615)| takes precedence | 1.072 |
| H04L1/1819 | with retransmission of additional or different redundancy | 1.071 |
| H04B7/0413 | MIMO systems | 1.070 |
| H04W24/10 | Scheduling measurement reports | | Arrangements for measurement reports | 1.069 |
| H04L5/0051 | of dedicated pilots i.e. pilots destined for a single user or terminal | 1.069 |
| H04L1/0005 | applied to payload information | 1.063 |
| H04L1/00 | Arrangements for detecting or preventing errors in the information received | correcting synchronisation | (ref: H04L7/00)| | | for digital computers | (ref: G06F11/00)| | arrangements in the transmission path | (ref: H04B) | 1.063 |
| H04W8/24 | Transfer of terminal data | 1.060 |
| H04L12/66 | Arrangements for connecting between networks having differing types of switching systems e.g. gateways | 1.060 |
| H04L5/0082 | at predetermined intervals | 1.059 |
| H04L1/0028 | Formatting | 1.058 |
| H04W72/0413 | in uplink direction of a wireless link i.e. towards network | 1.057 |
| H04L1/1861 | Physical mapping arrangements | for ACK signaling | see| also | (ref: H04L5/0053) | 1.057 |
| H04W36/385 | of the core network | 1.056 |
| H04W16/10 | Dynamic resource partitioning | 1.056 |
| H04L12/189 | in combination with wireless systems | selective distribution or broadcast in wireless communication networks | (ref: H04W4/06) | 1.056 |
| H04W48/08 | Access restriction or access information delivery e.g. discovery data delivery | 1.052 |
| H04W48/12 | using downlink control channel | 1.052 |
| H04W72/10 | where an allocation plan is defined| based on priority criteria | 1.050 |
| H04L5/0073 | Allocation arrangements that take into account other cell interferences | for intercell interference mitigation or co-ordination in orthogonal multiplex systems | (ref: H04J11/005) | 1.050 |
| H04L27/2692 | with preamble design i.e. with negotiation of the synchronisation sequence with transmitter or sequence linked to the algorithm used at the receiver | 1.050 |
| H04L5/023 | Multiplexing of multicarrier modulation signals | multicarrier modulation | (ref: H04L27/2601) | 1.047 |
| H04W28/26 | Resource reservation | 1.044 |
| H04W72/14 | using a grant | or specific| channel | 1.044 |
| H04L27/183 | Multiresolution systems | 1.042 |
| H04L27/2604 | Multiresolution systems | by means of multiresolution subcarriers | (ref: H04L27/183)| | (ref: H04L27/3488) | 1.042 |
| H04W72/12 | Dynamic| Wireless traffic scheduling | | Dynamically scheduled allocation on shared channel | 1.041 |
| H04L25/03343 | Arrangements at the transmitter end | 1.040 |
| A47K10/22 | for rolled-up webs | drawing-off paper from a roll in general | (ref: B65H) | 1.039 |
| H04W16/12 | Fixed resource partitioning | 1.038 |
| H04W28/065 | using assembly or disassembly of packets | 1.036 |
| H04L69/166 | IP fragmentation or TCP segmentation aspects | evaluation of maximum transfer unit [MTU] | (ref: H04L47/36)| | assembly or disassembly of packets in wireless networks | (ref: H04W28/065) | 1.036 |
| H04L47/824 | Applicable to portable or mobile terminals | 1.034 |
| H04B7/0478 | Special codebook structures directed to feedback optimization | 1.034 |
| H04B7/0617 | for beam forming | 1.034 |
| H04L27/0008 | arrangements for allowing a transmitter or receiver to use more than one type of modulation | negotiating modulation type for two-way transmission paths | (ref: H04L5/1453) | 1.033 |
| H04L27/261 | Details of reference signals | (ref: H04L27/262)| takes precedence | 1.029 |
| H04H20/67 | Common-wave systems i.e. using separate transmitters operating on substantially the same frequency | 1.027 |
| H04W74/04 | Scheduled | or contention-free| access | 1.026 |
| H04W74/08 | Non-scheduled | or contention based| access e.g. random access ALOHA CSMA [Carrier Sense Multiple Access] | 1.022 |
| H04W74/006 | in the downlink i.e. towards the terminal | 1.022 |
| H04W74/085 | collision avoidance | 1.022 |
| H04B7/0697 | using spatial multiplexing | 1.022 |
| H04L1/18 | Automatic repetition systems e.g. van Duuren system | | ARQ protocols | 1.021 |
| H04L27/10 | Frequency-modulated carrier systems i.e. using frequency-shift keying | (ref: H04L27/32)| takes precedence | | continuous phase systems | (ref: H04L27/18) | 1.021 |
| H04L1/0057 | Block codes | (ref: H04L1/0061)| | (ref: H04L1/0064)| take precedence | 1.021 |
| H04L1/0026 | Transmission of channel quality indication | 1.021 |
| H04W72/1268 | of uplink data flows | 1.021 |
| H04L5/0042 | intra-user or intra-terminal allocation | 1.021 |
| H04W72/1273 | of downlink data flows | 1.020 |
| H04L5/0041 | Frequency-non-contiguous | 1.019 |
| H04W56/002 | Mutual synchronization | 1.019 |
| H04L5/0055 | Physical resource allocation for ACK/NACK | for physical mapping arrangements in ARQ protocols | (ref: H04L1/1861) | 1.019 |
| H04L27/28 | with simultaneous transmission of different frequencies each representing one code element | 1.018 |
| H04W72/0446 | the resource being a slot sub-slot or frame | 1.018 |
| H04W52/325 | Power control of control or pilot channels | 1.017 |
| H04L1/1867 | Arrangements specific to the transmitter end | 1.017 |
| H04L5/0035 | Resource allocation in a cooperative multipoint environment | 1.017 |
| H04B7/2612 | Arrangements for wireless medium access control e.g. by allocating physical layer transmission capacity | (ref: H04B7/2615)| Â -Â | (ref: H04B7/2643)| take precedence| provision for broadband connection | (ref: H04Q11/0478) | 1.016 |
| H04L5/0096 | Indication of changes in allocation | 1.015 |
| H04L5/0021 | in which codes are applied as a frequency-domain sequences e.g. MC-CDMA | 1.015 |
| H04B1/692 | Hybrid techniques using combinations of two or more spread spectrum techniques | 1.015 |
| H04W72/02 | Selection of wireless resources by user or terminal | 1.012 |
| A47F10/06 | for restaurant service systems | table equipment | (ref: A47G)| | | dirty crockery transport in association with crockery washing machines | (ref: A47L15/00) | 1.012 |
| H04B1/707 | using direct sequence modulation | 1.012 |
| H04L5/0064 | Rate requirement of the data e.g. scalable bandwidth data priority | 1.011 |
| H04W48/10 | using broadcasted information | 1.011 |
| H04L5/02 | Channels characterised by the type of signal | 1.010 |
| H04L1/0042 | Encoding specially adapted to other signal generation operation e.g. in order to reduce transmit distortions jitter or to improve signal shape | (ref: H04L1/0067)| takes precedence | 1.010 |
| H04J13/16 | Code allocation | 1.010 |
| H04L1/0041 | Arrangements at the transmitter end | 1.010 |
| H04L1/0025 | Transmission of mode-switching indication | 1.008 |
| B60K15/03006 | Gas tanks | (ref: B60K15/07)| takes precedence | 1.006 |
| H04L47/10 | Flow control or congestion control | 1.004 |
| H04L5/00 | Arrangements affording multiple use of the transmission path | multiplex communication in general | (ref: H04J)| | | orthogonal multiplex systems | (ref: H04J11/00) | 1.004 |
| H04B7/04 | using two or more spaced independent antennas | 1.003 |
| H02K11/30 | Structural association with control circuits or drive circuits | 1.003 |
| H04L1/1896 | ARQ related signaling | 1.003 |
| H04W8/08 | Mobility data transfer | 1.003 |
| H04L47/2466 | Modification of handling priority for control packets e.g. for ACK or signaling packets | 1.003 |
| H04M11/04 | with fire police burglar or other alarm systems | such systems in general | (ref: G08) | 1.003 |
| H04B7/06 | at the transmitting station | 1.002 |
| H04B7/0667 | of delayed versions of same signal | using space-time coding | (ref: H04L1/0618) | 1.002 |
| H04L1/0668 | Orthogonal systems e.g. using Alamouti codes | 1.002 |
| H04B7/0691 | using subgroups of transmit antennas | 1.002 |
| H04L5/0032 | Distributed allocation i.e. involving a plurality of allocating devices each making partial allocation | 1.001 |
| H04L1/0071 | Use of interleaving | interleaving | per se| | (ref: H03M13/27) | 1.000 |
| H04W28/02 | Traffic management e.g. flow control or congestion control | 1.000 |
| H04W16/14 | Spectrum sharing arrangements | between different networks | 0.996 |
| H04W74/0808 | using carrier sensing e.g. as in CSMA | 0.996 |
| H04L5/10 | with dynamo-electric generation of carriers| with mechanical filters or demodulators | 0.993 |
| H04L65/1016 | IMS | wireless communication networks | (ref: H04W) | 0.993 |
| H04L1/08 | by repeating transmission e.g. Verdan system | (ref: H04L1/1858)| and | (ref: H04L1/189)| take precedence | 0.992 |
| H04L1/1893 | Physical mapping arrangements | physical resource mapping in general | (ref: H04L5/00) | 0.992 |
| H04L1/1614 | using bitmaps | 0.992 |
| H04L1/1671 | the supervisory signal being transmitted together with control information | 0.992 |
| H04L1/0006 | by adapting the transmission format | 0.992 |
| H04L1/0017 | where the mode-switching is based on Quality of Service requirement | 0.992 |
| H04L47/15 | in relation to multipoint traffic | arrangements for broadcast or multicast in data networks | (ref: H04L12/18) | 0.991 |
| H04W52/0225 | using monitoring of external events e.g. the presence of a signal | 0.991 |
| H04W52/0222 | in packet switched networks | 0.991 |
| H04L5/001 | the frequencies being arranged in component carriers | 0.991 |
| H04W72/0466 | the resource being a scrambling code | 0.991 |
| H04W36/0085 | Hand-off measurements | 0.990 |
| H04B7/26 | at least one of which is mobile | 0.990 |
| H04B7/2643 | using time-division multiple access [TDMA] | (ref: H04B7/2615)| | (ref: H04B7/2618)| take precedence | 0.988 |
| H04L1/06 | using space diversity | 0.988 |
| H04L1/1607 | Details of the supervisory signal | 0.985 |
| H04L5/0016 | Time-frequency-code | 0.985 |
| H04L1/0023 | characterised by the signalling | 0.984 |
| H04W24/08 | Testing | supervising or monitoring| using real traffic | 0.982 |
| H04W74/0833 | using a random access procedure | 0.982 |
| H04L47/20 | Policing | 0.982 |
| H04L1/0001 | Systems modifying transmission characteristics according to link quality e.g. power backoff | adaptive data allocation for multicarrier modulation | (ref: H04L5/0044)| | controlling transmission power for radio systems | (ref: H04W52/04) | 0.982 |
| H04J11/00 | Orthogonal multiplex systems | e.g. using WALSH codes| (ref: H04J13/00)| takes precedence | 0.982 |
| H04W8/005 | Discovery of network devices e.g. terminals | 0.982 |
| H04W8/30 | Network data restoration| | Network data reliability| Network data fault tolerance | 0.982 |
| H04L65/103 | in the network | 0.981 |
| H04L69/04 | Protocols for data compression | compression in general | (ref: H03M7/30)| | reduction of the amount or size of exchanged application data at an intermediate network processing stage | (ref: H04L67/2828)| | optimizing e.g. header compression information sizing in wireless communication networks | (ref: H04W28/06) | 0.981 |
| H04W4/10 | Push-to-Talk [PTT] or Push-On-Call services | 0.981 |
| H04W72/1263 | Schedule usage i.e. actual mapping of traffic onto schedule| Multiplexing of flows into one or several streams| Mapping aspects| Scheduled allocation | 0.981 |
| H04B7/15557 | Selecting relay station operation mode e.g. between amplify and forward mode decode and forward mode or FDD - and TDD mode | 0.981 |
| H04J11/0073 | Acquisition of primary synchronisation channel e.g. detection of cell-ID within cell-ID group | 0.981 |
| H04J1/00 | Frequency-division multiplex systems | (ref: H04J14/00)| takes precedence | 0.981 |
| H04W16/26 | Cell enhancers | or enhancement| e.g. for tunnels building shadow | 0.980 |
| H04B7/204 | Multiple access | 0.980 |
| H04B7/0628 | Diversity capabilities | 0.979 |
| H04L1/0007 | by modifying the frame length | 0.979 |
| H04L1/1822 | involving configuration of ARQ with parallel processes | 0.979 |
| H04W28/18 | Negotiating wireless communication parameters | 0.979 |
| H04W4/08 | User group management | 0.978 |
| H04L1/1621 | Group acknowledgement i.e. the acknowledgement message defining a range of identifiers e.g. of sequence numbers | 0.978 |
| H04L1/1816 | with retransmission of the same encoded message | 0.978 |
| H04W72/005 | Resource management for broadcast services | 0.978 |
| H04W52/24 | using SIR [Signal to Interference Ratio] or other wireless path parameters | 0.978 |
| H04L1/0015 | characterised by the adaptation strategy | 0.978 |
| H04W28/20 | Negotiating bandwidth | 0.977 |
| H04B7/2606 | Arrangements for base station coverage control e.g. by using relays in tunnels | 0.977 |
| H04W72/06 | where an allocation plan is defined| based on a ranking criteria of the wireless resources | 0.977 |
| H04L1/0027 | Scheduling of signalling e.g. occurrence thereof | 0.976 |
| H04L1/0083 | Formatting with frames or packets| Protocol or part of protocol for error control | 0.974 |
| H04W28/0215 | based on user or device properties e.g. MTC-capable devices | services for machine-to-machine communication [M2M] or machine type communication [MTC] | (ref: H04W4/70)| | wireless resource selection or allocation plan definition based on terminal or device properties | (ref: H04W72/048) | 0.974 |
| H05K1/0253 | Impedance adaptations of transmission lines by special lay-out of power planes e.g. providing openings | (ref: H05K1/0251)| takes precedence | 0.974 |
| H04L5/0003 | Two-dimensional division | time-code division | (ref: H04J11/00)| | (ref: H04J13/00)| | for time-space division | (ref: H04B7/0413)| | (ref: H04B7/0697) | 0.974 |
| H04L1/0618 | Space-time coding | 0.973 |
| H04L47/24 | depending on the type of traffic e.g. priority or quality of service [QoS] | network arrangements for networked applications for scheduling or organising the servicing of application requests whereby quality of service or priority requirements are taken into account | (ref: H04L67/322) | 0.973 |
| H04L5/005 | of common pilots i.e. pilots destined for multiple users or terminals | 0.972 |
| H04L5/0062 | Avoidance of ingress interference e.g. ham radio channels | 0.972 |
| H04W4/44 | for communication between vehicles and infrastructures e.g. vehicle-to-cloud [V2C] or vehicle-to-home [V2H] | 0.972 |
| H04L5/0033 | each allocating device acting autonomously i.e. without negotiation with other allocating devices | 0.972 |
| H04W52/365 | Power headroom reporting | 0.972 |
| H04W52/143 | Downlink power control | 0.971 |
| H04W16/06 | Hybrid resource partitioning e.g. channel borrowing | 0.971 |
| H04L1/0073 | Special arrangements for feedback channel | 0.971 |
| H04B7/18543 | for adaptation of transmission parameters e.g. power control | for detecting or preventing errors in the information received | (ref: H04L1/00) | 0.970 |
| H04L65/80 | QoS aspects | monitoring of the downstream path of a video distribution network | (ref: H04N21/2402)| | (ref: H04N21/44209)| | network service management ensuring proper service fulfillment according to an agreement or contract between two parties e.g. between an IT-provider and a customer | (ref: H04L41/50)| | monitoring arrangements testing arrangements with monitoring of QoS metrics | (ref: H04L43/08)| | traffic-type related flow control in packet switching networks e.g. priorities or QoS | (ref: H04L47/24)| | admission control/resource reservation in packet switching networks based | 0.970 |
| H04W72/1289 | in the downlink i.e. towards the terminal | 0.969 |
| H04L1/0058 | Block-coded modulation | 0.969 |
| H04L12/6418 | Hybrid transport | 0.969 |
| H04B7/208 | Frequency-division multiple access | [FDMA] | 0.967 |
| H04W60/00 | Registration e.g. affiliation to network| De-registration e.g. terminating affiliation | 0.967 |
| H04L1/0031 | Multiple signaling transmission | (ref: H04L1/1664)| | (ref: F15)| take precedence | 0.966 |
| H03M13/09 | Error detection only e.g. using cyclic redundancy check [CRC] codes or single parity bit | error detection or correction by redundancy in data representation | (ref: G06F11/08) | 0.966 |
| H04W4/06 | Selective distribution of broadcast services e.g. multimedia broadcast multicast service [MBMS]| Services to user groups| One-way selective calling services | 0.965 |
| H04W52/346 | distributing total power among users or channels | 0.965 |
| H04W56/001 | Synchronization between nodes | 0.964 |
| H04W52/0216 | using a pre-established activity schedule e.g. traffic indication frame | 0.964 |
| H04L5/1438 | Negotiation of transmission parameters prior to communication | modified according to link quality | (ref: H04L1/0001) | 0.964 |
| H04W24/02 | Arrangements for optimising operational condition | 0.964 |
| H04B7/024 | Co-operative use of antennas of several sites e.g. in co-ordinated multipoint or co-operative multiple-input multiple-output [MIMO] systems | 0.963 |
| H04W72/0493 | where an allocation plan is defined based on a resource usage policy | 0.963 |
| H04L65/00 | Network arrangements or protocols for real-time communications | computer conference | (ref: H04L12/1813)| | real time or near real time messaging in message switching systems e.g. instant messaging | (ref: H04L51/04)| | network applications in general | (ref: H04L67/00)| | systems providing special services to telephonic subscribers | (ref: H04M3/42)| | interconnection arrangements between switching centres for working between exchanges having different types of switching equipment where the types of switching equipment comprise PSTN/ISDN equipment and equipment of networks other than PSTN/I | 0.963 |
| H04W64/003 | locating network equipment | 0.963 |
| H04L1/0029 | Reduction of the amount of signalling e.g. retention of useful signalling or differential signalling | power control | (ref: H04W52/04) | 0.888 |
| H04W72/048 | where an allocation plan is defined based on terminal or device properties | 0.888 |
| H04J11/005 | of intercell interference | 0.888 |
| H04W52/146 | Uplink power control | 0.888 |
| H04L5/0087 | when data requirements change | 0.859 |
| H04L47/70 | Admission control or resource allocation | medium access in wavelength-division multiplex systems | (ref: H04J14/0227) | 0.458 |
| H04L43/16 | using threshold monitoring | 0.458 |
| H04L47/74 | Reactions to resource unavailability | 0.458 |
| H04L47/781 | Centralized allocation of resource | 0.458 |
| H04L43/0894 | Packet rate | 0.458 |
| H04W28/0268 | using specific QoS parameters for wireless networks e.g. QoS class identifier [QCI] or guaranteed bit rate [GBR] | negotiating SLA or negotiating QoS | (ref: H04W28/24) | 0.439 |
| H04W28/0257 | the individual bearer or channel having a maximum bit rate or a bit rate guarantee | 0.439 |
| H04L69/22 | Header parsing or analysis | traffic monitoring by flow aggregation or filtering | (ref: H04L43/02)| | flow identification in packet switching networks | (ref: H04L47/2483) | 0.439 |
| H04W12/04 | Key management | 0.439 |
| H04W28/0263 | involving mapping traffic to individual bearers or channels e.g. traffic flow template [TFT] | 0.439 |
| H04W52/48 | during retransmission after error or non-acknowledgment | 0.426 |
| H04W52/34 | TPC management i.e. sharing limited amount of power among users or channels or data types e.g. cell loading | 0.426 |
| H04L5/0039 | Frequency-contiguous i.e. with no allocation of frequencies for one user or terminal between the frequencies allocated to another | 0.420 |
| H04L5/1469 | using time-sharing | 0.420 |
| H04W76/11 | Allocation or use of connection identifiers | 0.419 |
| H04W52/0274 | by switching on or off the equipment or parts thereof | 0.419 |
| H04N21/26208 | the scheduling operation being performed under constraints | 0.418 |
| H04N21/44209 | Monitoring of downstream path of the transmission network originating from a server e.g. bandwidth variations of a wireless network | arrangements for maintenance or administration in data switching networks involving bandwidth and capacity management | (ref: H04L41/0896) | 0.418 |
| H04N21/6582 | Data stored in the client e.g. viewing habits hardware capabilities credit card number | arrangements where receivers interact with the broadcast | (ref: H04H20/38) | 0.418 |
| H04N21/6131 | involving transmission via a mobile phone network | wireless downlink channel access | (ref: H04W74/006) | 0.418 |
| H04L5/14 | Two-way operation using the same type of signal i.e. duplex | duplex repeaters | (ref: H04L25/22)| | conditioning for two-way transmission in general | (ref: H04B3/20)| | | for interconnection between telephone switching centres | (ref: H04Q3/00) | 0.418 |
| H04B7/022 | Site diversity| Macro-diversity | using two or more spaced independent antennas | (ref: H04B7/04) | 0.416 |
| H04L1/0068 | by puncturing | 0.413 |
| H04W74/0866 | using a dedicated channel for access | 0.413 |
| H04L25/0224 | using sounding signals | 0.413 |
| H04L1/0075 | Transmission of coding parameters to receiver | (ref: H04L1/0023)| takes precedence | 0.409 |
| H04L1/0013 | Rate matching e.g. puncturing or repetition of code symbols | 0.408 |
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| H04W72/085 | using measured or perceived quality | 0.405 |
| H04L1/0011 | applied to payload information | 0.405 |
| H04L1/1877 | for semi-reliable protocols e.g. for less sensitive applications like streaming video | buffer level management for video bitstream control arrangements | (ref: H04N21/44004) | 0.404 |
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| H04L5/1484 | operating bytewise | 0.403 |
| H04L7/043 | Pseudo-noise [PN] codes variable during transmission | synchronisation of spread spectrum receivers | (ref: H04B1/69) | 0.403 |
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| H04L5/143 | for modulated signals | (ref: H04L5/1469)| takes precedence | 0.401 |
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| H04L9/30 | Public key i.e. encryption algorithm being computationally infeasible to invert or user's encryption keys not requiring secrecy | 0.398 |
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| H04L5/225 | combined with the use of transition coding | transition coding | (ref: H04L25/493) | 0.397 |
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| H04W84/047 | using dedicated repeater stations | 0.397 |
| H04B7/0632 | Channel quality parameters e.g. channel quality indicator [CQI] | 0.396 |
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| H04B7/0486 | taking channel rank into account | 0.396 |
| H04W76/20 | Manipulation of established connections | 0.396 |
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| H04L27/3477 | by using the outer points of the constellation or of the constituent two-dimensional constellations | 0.391 |
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| H04L5/0028 | Variable division | signaling therefor | (ref: H04L5/0092) | 0.388 |
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| H04W74/06 | using polling | 0.388 |
| H04B7/0619 | using feedback from receiving side | feedback signaling for adaptive modulation/coding | (ref: H04L1/0001) | 0.388 |
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| H04L1/0038 | Blind format detection | for detection of modulation format | (ref: H04L27/0012) | 0.384 |
| H04W28/0231 | based on communication conditions | dynamic wireless traffic scheduling definition based on channel quality criteria | (ref: H04W72/1226) | 0.384 |
| H04W72/08 | where an allocation plan is defined| based on quality criteria | 0.384 |
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| H04J11/0026 | of multi-user interference | 0.383 |
| H04L27/2666 | Acquisition of further OFDM parameters e.g. bandwidth subcarrier spacing or guard interval length | 0.383 |
| H04L27/2659 | Coarse or integer frequency offset determination and synchronisation | 0.383 |
| H04L27/30 | wherein each code element is represented by a combination of frequencies | 0.383 |
| H04L25/03821 | Inter-carrier interference cancellation [ICI] | 0.383 |
| H04L27/2647 | Arrangements specific to the receiver | equalisation | (ref: H04L25/03006)| | (ref: H04L27/01) | 0.383 |
| H04L25/4902 | Pulse width modulation| Pulse position modulation | 0.383 |
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| H04J3/14 | Monitoring arrangements | for SDH/SONET rings | (ref: H04J3/085) | 0.382 |
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| H04L41/0803 | Configuration setting of network or network elements | communication protocols supporting networked applications involving the movement of software or networked applications configuration parameters | (ref: H04L67/34) | 0.382 |
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| H04L5/0076 | Allocation utility-based | 0.382 |
| H04W52/04 | TPC [Transmission power control] | 0.382 |
| H04W72/0473 | the resource being transmission power | 0.382 |
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| H04W28/0252 | per individual bearer or channel | dynamic wireless traffic scheduling | (ref: H04W72/12) | 0.381 |
| H04L5/12 | the signals being represented by different phase modulations of a single carrier | 0.381 |
| H04W76/36 | for reassigning the resources associated with the released connections | 0.381 |
| H04W76/34 | Selective release of ongoing connections | 0.381 |
| H04W72/00 | Local resource management e.g. wireless traffic scheduling or selection or allocation of wireless resources | 0.381 |
| H04J11/0023 | Interference mitigation or co-ordination | traffic scheduling | (ref: H04W72/082)| | (ref: H04W72/1226)| | power management | (ref: H04W52/00)| | allocation criteria for ingress interference avoidance | (ref: H04L5/0062)| | frequency allocation criteria for requirements on out-of-channel emissions | (ref: H04L5/0066)| | peak power aspects in multicarrier modulation | (ref: H04L27/2614)| | arrangements for removing intersymbol interference or baseband equalisers | (ref: H04L25/03006)| | direct sequence spread spectrum [DSSS] systems | (ref: H04B1/7097)| | frequency hopping | (ref: H04B1/713) | 0.381 |
| H04L5/026 | using code division | 0.381 |
| H04J13/18 | Allocation of orthogonal codes | 0.381 |
| H04W88/10 | adapted for operation in multiple networks e.g. multi-mode access points | 0.380 |
| H04W88/06 | adapted for operation in multiple networks | or having at least two operational modes| e.g. multi-mode terminals | 0.380 |
| H04B7/0417 | Feedback systems | 0.380 |
| H04B7/063 | Parameters other than those covered in groups | (ref: H04B7/0623)| - | (ref: H04B7/0634)| e.g. channel matrix rank or transmit mode selection | 0.380 |
| F24C1/08 | solely adapted for radiation heating | (ref: F24C1/16)| takes precedence | 0.379 |
| A47J37/045 | with endless conveyors | 0.379 |
| A47G23/08 | Food-conveying devices for tables | restaurant service systems | (ref: A47F10/06)| | conveyors for washing or rinsing crockery or tableware | (ref: A47L15/00)| Movable or rotary food-serving devices | 0.379 |
| A47J37/0781 | Barbecue tables e.g. central grilling areas surrounded by an eating table | 0.379 |
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| H04W88/08 | Access point devices | 0.379 |
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| H04L25/0234 | by non-linear interpolation | 0.376 |
| H04L25/022 | of frequency response | 0.376 |
| H04W52/42 | in systems with time space frequency or polarisation diversity | 0.376 |
| H04B7/0684 | using different training sequences per antenna | 0.376 |
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| H04L12/185 | with management of multicast group membership | 0.376 |
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| H04L47/2475 | Application aware | 0.376 |
| H04W76/50 | for emergency connections | 0.376 |
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| H04L47/28 | using time considerations | 0.376 |
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| H04B7/0473 | taking constraints in layer or codeword to antenna mapping into account | 0.376 |
| H04L27/2634 | IFFT/IDFT in combination with other circuits for modulation | DFT or FFT computation methods or devices in general | (ref: G06F17/141) | 0.376 |
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| H04W72/082 | using the level of interference | 0.375 |
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| H04L27/0006 | Assessment of spectral gaps suitable for allocating digitally modulated signals e.g. for carrier allocation in cognitive radio | for spectrum sharing between different networks | (ref: H04W16/14) | 0.373 |
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| H03M13/2906 | using block codes | (ref: H03M13/2957)| takes precedence | 0.372 |
| H03M13/6544 | IEEE 802.16 (WIMAX and broadband wireless access) | 0.372 |
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| H04L1/0002 | by adapting the transmission rate | 0.371 |
| H04L27/2688 | Resistance to perturbation e.g. noise interference or fading | 0.370 |
| H04L27/2695 | with channel estimation e.g. determination of delay spread derivative or peak tracking | channel estimation | per se| | (ref: H04L25/0202) | 0.370 |
| H04W52/0206 | in access points e.g. base stations | access point devices | per se| | (ref: H04W88/08) | 0.370 |
| H04L5/0025 | Spatial division following the spatial signature of the channel | 0.370 |
| H04W72/1278 | Transmission of control information for scheduling | 0.370 |
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| H04L1/0061 | Error detection codes | 0.370 |
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| H04L25/03866 | using scrambling | 0.369 |
| H04B7/2628 | using code-division multiple access [CDMA] or spread spectrum multiple access [SSMA] | (ref: H04B7/2618)| takes precedence | 0.369 |
| H04L5/26 | combined with the use of different frequencies | 0.369 |
| H04W8/04 | Registration at HLR or HSS [Home Subscriber Server] | 0.369 |
| H04L41/0806 | for initial configuration or provisioning | 0.369 |
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| H04L47/623 | weighted service order | (ref: H04L47/52)| | (ref: H04L47/54)| | (ref: H04L47/56)| take precedence | 0.368 |
| H04L69/168 | Special adaptations of TCP UDP or IP to match specific link layer protocols e.g. ATM SONET or PPP | IP over ATM | (ref: H04L2012/5667)| | special adaptation of TCP protocol for wireless media | (ref: H04W80/06) | 0.368 |
| H04L69/16 | Transmission control protocol/internet protocol [TCP/IP] or user datagram protocol [UDP] | flow control or congestion control in data switching networks | (ref: H04L47/10)| | transport layer addressing aspects | (ref: H04L61/6063)| | special adaptations of TCP UDP or IP for interworking of IP based networks with other networks | (ref: H04L69/169)| | adapting video multiplex streams to a specific network | (ref: H04N21/2381)| | network layer protocol adaptations for supporting mobility e.g. mobile IP | (ref: H04W80/04) | 0.368 |
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| H04W76/45 | for Push-to-Talk [PTT] or Push-to-Talk over cellular [PoC] services | 0.368 |
| H04J11/0069 | Cell search i.e. determining cell identity [cell-ID] | design of multiplexing codes | (ref: H04J13/00)| | processing access restriction or access information | (ref: H04W48/16)| | discovery of network devices for network data management | (ref: H04W8/005)| | sounding signals for channel estimation | (ref: H04L25/0226)| | structure of reference signals in multicarrier modulation systems | (ref: H04L27/2613)| | frame time or carrier synchronisation in multicarrier modulation systems | (ref: H04L27/2655) | 0.368 |
| H04L27/2675 | Pilot or known symbols | structure of pilot symbols | (ref: H04L27/2613)| | cell search in orthogonal multiplex systems | (ref: H04J11/0069)| | allocation of pilot signals | (ref: H04L5/0048) | 0.368 |
| H04L27/2656 | Frame synchronisation | 0.368 |
| H04J11/0076 | Acquisition of secondary synchronisation channel e.g. detection of cell-ID group | 0.368 |
| H04L1/1692 | Physical properties of the supervisory signal e.g. acknowledgement by energy bursts | 0.368 |
| H04B7/0626 | Channel coefficients e.g. channel state information [CSI] | 0.368 |
| H04L1/12 | by using return channel | 0.368 |
| H04L25/0228 | with direct estimation from sounding signals | 0.368 |
| H04L1/1864 | ARQ related signaling | (ref: H04L1/1607)| takes precedence | 0.368 |
| H04L27/20 | Modulator circuits | in general | (ref: H03C)| | (ref: H03K7/04)| Transmitter circuits | 0.367 |
| H04L5/0012 | Hopping in multicarrier systems | for frequency hopping in spread spectrum systems | (ref: H04B1/713) | 0.367 |
| H04B7/0888 | with selection | 0.367 |
| H04B7/0874 | using subgroups of receive antennas | 0.367 |
| H04J1/04 | Frequency-transposition arrangements | modulation with carrier or side-band suppression | (ref: H03C1/52)| | (ref: H03C1/60)| | single-band suppression | (ref: H04B1/00)| | (ref: H04B15/00)| | telegraphic communication | (ref: H04L27/02)| | (ref: H04L25/49)| | transference of modulation from one carrier to another e.g. frequency- changing | (ref: H03D7/00)| | demodulation or transference of modulation of modulated electromagnetic waves | (ref: H03D9/00) | 0.367 |
| H04B7/18539 | Arrangements for managing radio resources i.e. for establishing or releasing a connection | 0.367 |
| H04L5/0019 | in which one code is applied as a temporal sequence to all frequencies | 0.367 |
| H04L5/0017 | in which a distinct code is applied as a temporal sequence to each frequency | 0.367 |
| H04L1/0034 | where the transmitter decides based on inferences e.g. use of implicit signalling | 0.367 |
| H04M7/0081 | Network operation administration maintenance or provisioning | 0.367 |
| H04W52/286 | during data packet transmission e.g. high speed packet access [HSPA] | 0.367 |
| H04L12/2861 | Point-to-multipoint connection from the data network to the subscribers | 0.367 |
| H04W52/0209 | in terminal devices | terminal devices | per se| | (ref: H04W88/02) | 0.367 |
| H04W52/54 | Signalisation aspects of the TPC commands e.g. frame structure | 0.366 |
| H04W52/0219 | where the power saving management affects multiple terminals | 0.366 |
| H04W52/0229 | where the received signal is a wanted signal | 0.366 |
| H04B7/2615 | using hybrid frequency-time division multiple access [FDMA-TDMA] | 0.366 |
| H04L5/0014 | Three-dimensional division | time-code-space division | (ref: H04B7/0413)| | (ref: H04B7/0697) | 0.366 |
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| H04W28/0278 | using buffer status reports | dynamic wireless traffic scheduling definition | (ref: H04W72/1205) | 0.366 |
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| H04W92/18 | between terminal devices | 0.364 |
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| H04L1/0046 | Code rate detection or code type detection | (ref: H04L1/0038)| takes precedence| detection of the data rate | (ref: H04L25/0262)| | for packet format | (ref: H04L1/0091) | 0.362 |
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| H04W92/10 | between terminal device and access point i.e. wireless air interface | 0.070 |
| H04W84/042 | Public Land Mobile systems e.g. cellular systems | 0.070 |
| H04L2001/0093 | Point-to-multipoint | 0.070 |
| H04B7/0669 | using different channel coding between antennas | space-time coding | (ref: H04L1/0618) | 0.069 |
| H04W72/046 | the resource being in the space domain e.g. beams | 0.069 |
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| H04L2209/80 | Wireless | network architectures or network communication protocols for wireless network security | (ref: H04W12/00) | 0.066 |
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| H04H20/95 | characterised by a specific format e.g. MP3 (MPEG-1 Audio Layer 3) | 0.064 |
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| H04W36/0069 | in case of dual connectivity e.g. CoMP decoupled uplink/downlink or carrier aggregation | allocation of physical resources in CoMP or in carrier aggregation | (ref: H04L5/0035) | 0.063 |
| H04M2242/04 | for emergency applications | 0.063 |
| Y02D70/1242 | in Universal Mobile Telecommunications Systems [UMTS] networks | 0.063 |
| Y02D70/444 | using two or more spaced independent antennas | 0.063 |
| Y02D70/1262 | in Long-Term Evolution [LTE] networks | 0.063 |
| Y02D70/1246 | in High-Speed Uplink Packet Access [HSUPA] networks | 0.063 |
| Y02D70/142 | in Wireless Local Area Networks [WLAN] | 0.063 |
| Y02D70/00 | Techniques for reducing energy consumption in wireless communication networks | 0.063 |
| Y02D70/23 | in Voice over IP [VoIP] networks | 0.063 |
| Y02D70/1244 | in High-Speed Downlink Packet Access [HSDPA] networks | 0.063 |
| Y02D70/144 | in Bluetooth and Wireless Personal Area Networks [WPAN] | 0.063 |
| Y02D70/1224 | in General Packet Radio Service [GPRS] networks | 0.063 |
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| H04L2001/0097 | Relays | 0.061 |
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| H04J2011/0016 | with FDM/FDMA and TDM/TDMA | 0.061 |
| H04W88/18 | Service support| Network management devices | 0.061 |
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| H04J13/0074 | Code shifting or hopping | 0.061 |
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| H05K1/0245 | Lay-out of balanced signal pairs e.g. differential lines or twisted lines | 0.061 |
| H01P1/2039 | Galvanic coupling between Input/Output | 0.061 |
| H05K2201/09309 | Core having two or more power planes| Capacitive laminate of two power planes | 0.061 |
| H05K2201/09363 | wherein only contours around conductors are removed for insulation | 0.061 |
| H05K1/0227 | Split or nearly split shielding or ground planes | 0.061 |
| H01P3/026 | Coplanar striplines [CPS] | 0.061 |
| H05K2201/09781 | Dummy conductors i.e. not used for normal transport of current| Dummy electrodes of components | 0.061 |
| H01Q1/246 | specially adapted for base stations | 0.061 |
| H05K1/0219 | Printed shielding conductors for shielding around or between signal conductors e.g. coplanar or coaxial printed shielding conductors | 0.061 |
| H05K2201/09672 | Superposed layout i.e. in different planes | parallel traces in one plane | (ref: H05K2201/09236) | 0.061 |
| H04L1/04 | using frequency diversity | 0.061 |
| H04L1/0606 | Space-frequency coding | 0.061 |
| H04L5/16 | Half-duplex systems| Simplex-duplex switching| Transmission of break signals | non automatically inverting the direction of transmission | 0.061 |
| H04L67/12 | adapted for proprietary or special purpose networking environments e.g. medical networks sensor networks networks in a car or remote metering networks | digital computing or data processing equipment or methods specially adapted for specific applications in healthcare or life sciences | (ref: G06F19/00)| | home automation networks | (ref: H04L12/2803)| | total factory control characterised by the network communication | (ref: G05B19/4185)| | games involving transmission systems | (ref: A63F13/30) | 0.061 |
| H04B2001/6908 | using time hopping | 0.061 |
| H04L1/1838 | for semi-reliable protocols e.g. for less sensitive applications such as streaming video | buffer level management for video bitstream receiver | (ref: H04N21/44004) | 0.061 |
| H04B2201/70701 | featuring pilot assisted reception | 0.060 |
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| H04W84/08 | Trunked mobile radio systems | 0.060 |
| H04J13/0044 | OVSF [orthogonal variable spreading factor] | 0.060 |
| H04W84/045 | using private Base Stations e.g. femto Base Stations home Node B | 0.060 |
| H04W76/40 | for selective distribution or broadcast | 0.060 |
| H04L1/1635 | Cumulative acknowledgement i.e. the acknowledgement message applying to all previous messages | 0.060 |
