Nokia Technologies Oy patent applications on August 22nd, 2024
Patent Applications by Nokia Technologies Oy on August 22nd, 2024
Nokia Technologies Oy: 51 patent applications
Nokia Technologies Oy has applied for patents in the areas of H04L5/00 (14), H04W24/10 (7), H04W56/00 (6), H04W64/00 (6), H04W36/00 (5) H04W24/08 (3), H04W52/0229 (2), H04W56/0015 (2), H04W36/0072 (2), H04W72/046 (2)
With keywords such as: device, signal, user, network, based, information, timing, equipment, terminal, and apparatus in patent application abstracts.
Patent Applications by Nokia Technologies Oy
Inventor(s): Keeth Saliya Jayasinghe Laddu of Espoo (FI) for nokia technologies oy
IPC Code(s): G06F11/22
CPC Code(s): G06F11/2257
Abstract: in accordance with example embodiments of the invention, a user equipment receives or sends information to trigger model failure detection (mfd), wherein the trigger is based on a machine learning model or machine learning model functionality to initiate an mfd count in a medium access control layer, wherein mfd is using an mfd window in the medium access control layer and wherein one mfd count in the medium access control layer is determined by at least one model failure instances of the machine learning model or model functionality usage in a physical layer; and determining by the user equipment or a network the model failure for the machine learning model or machine learning model functionality when the mfd count in the medium access control layer is equal to or above a maximum model failure count prior to the end of the mfd window in the medium access control layer.
Inventor(s): Dimitri GOLD of Espoo (FI) for nokia technologies oy, Amaanat ALI of Espoo (FI) for nokia technologies oy, Keeth Saliya Jayasinghe LADDU of Espoo (FI) for nokia technologies oy, Mihai ENESCU of Espoo (FI) for nokia technologies oy, Sakira HASSAN of Espoo (FI) for nokia technologies oy
IPC Code(s): G06N20/00
CPC Code(s): G06N20/00
Abstract: method comprising:
Inventor(s): Howard HUANG of Murray Hill NJ (US) for nokia technologies oy, Zoran RADIVOJEVIC of Cambridge (GB) for nokia technologies oy
IPC Code(s): G06V10/44, G06F21/30
CPC Code(s): G06V10/443
Abstract: an approach is provided for spatial-temporal authentication. the approach involves, for example, receiving first image data captured by a first camera device and depicting an object positioned at a location, and second image data captured by a second camera device depicting the object and captured within a time threshold of the first image data. the approach also involves processing the first image data to extract one or more first object features and the second image data to extract one or more second object features. the approach further involves determining a match between the one or more first object features and the one or more second object features. the approach further involves providing an authentication output indicating that the first camera device and the second camera device are or were at the location of the object within the time threshold.
Inventor(s): Sami-Jukka HAKOLA of Oulu (FI) for nokia technologies oy, Timo KOSKELA of Oulu (FI) for nokia technologies oy, Juha Pekka KARJALAINEN of Oulu (FI) for nokia technologies oy
IPC Code(s): H04B7/0456
CPC Code(s): H04B7/0486
Abstract: example embodiments of the present disclosure relate to methods and apparatuses for codebook-based uplink transmission. a first apparatus obtains a codepoint value and determines at least one table entry for precoding based on the codepoint value. the codepoint value indicates selection of a transmission mode and one or multiple maximum ranks, and at least a maximum rank of a first codepoint value is different from a maximum rank of a second codepoint value. through this solution, multi-panel simultaneous transmission in the scenarios of single and multiple transmission-reception points (trps) can be supported in a simple and easily adoptable way.
20240283516. SPATIAL PATTERN ADAPTATION_simplified_abstract_(nokia technologies oy)
Inventor(s): Matha DEGHEL of Massy (FR) for nokia technologies oy
IPC Code(s): H04B7/06, H04L5/00, H04W24/10
CPC Code(s): H04B7/0691
Abstract: example embodiments of the present disclosure relate to spatial pattern adaptation. an apparatus determines, based at least on a spatial pattern switching between at least two spatial patterns of a network device, one or more reference signal, rs, resources or rs occurrences from a plurality of rs resources or rs occurrences. the apparatus transmits, to the network device, at least one report comprising one or more measurements based at least on the one or more rs resources or rs occurrences. in this way, channel and interference measurement performance can be adapted to the dynamic switching of antennal or spatial pattern. both the ue and the gnb have a common knowledge of which resources are used by the ue for deriving channel and interference measurement.
Inventor(s): Anil KIRMAZ of Munich (DE) for nokia technologies oy, Athul PRASAD of Naperville IL (US) for nokia technologies oy, Oana-Elena BARBU of Aalborg (DK) for nokia technologies oy, Taylan SAHIN of Munich (DE) for nokia technologies oy, Diomidis MICHALOPOULOS of Munich (DE) for nokia technologies oy, Dick CARRILLO MELGAREJO of Espoo (FI) for nokia technologies oy, Muhammad Ikram ASHRAF of Espoo (FI) for nokia technologies oy
IPC Code(s): H04B17/309, H04W64/00
CPC Code(s): H04B17/309
Abstract: a method performing by an apparatus, including: receiving (), from a network entity or transmitting to a user device, one or more feature set lists each including a plurality of feature sets possibly in a priority order or rank order associated with the apparatus or the user device, wherein the one or more feature set lists are based on at least one of the following: one or more bandwidth parts configured for the apparatus or the user device, one or more bandwidth capabilities of the apparatus or the user device, or one or more radio environment scenarios; and classifying or selecting channel measurements of the one or more received signals per measurement by the apparatus or by the user device, to estimate a likelihood of a propagation condition classification including one of: line-of-sight (los), non-line-of-sight (nlos) and obstructed line-of-sight, based on the feature sets to determine positioning of the apparatus or the user device.
20240283571. MANAGEMENT OF MEASUREMENT GAP SIGNALING_simplified_abstract_(nokia technologies oy)
Inventor(s): Rafhael MEDEIROS DE AMORIM of Aalborg (DK) for nokia technologies oy, Mads Lauridsen of Aalborg (DK) for nokia technologies oy
IPC Code(s): H04L1/1812, H04L5/00, H04W64/00
CPC Code(s): H04L1/1812
Abstract: the invention inter alia pertains to an apparatus for communication with a non-terrestrial network, ntn, the apparatus comprising means configured for:
20240283582. LOW-POWER WIRELESS DEVICE_simplified_abstract_(nokia technologies oy)
Inventor(s): Knud KNUDSEN of Aalborg (DK) for nokia technologies oy, Ganesh VENKATRAMAN of Oulu (FI) for nokia technologies oy, Esa Tapani TIIROLA of Oulu (FI) for nokia technologies oy, Jorma Johannes KAIKKONEN of Oulu (FI) for nokia technologies oy, Jan Torst HVIID of Aalborg (DK) for nokia technologies oy
IPC Code(s): H04L5/00, H04L27/26, H04W52/02
CPC Code(s): H04L5/0007
Abstract: according to an example aspect of the present disclosure, there is provided an apparatus comprising at least one processing core and at least one memory storing instructions that, when executed by the at least one processing core, cause the apparatus at least to determine a bit sequence, divide the bit sequence into fragments of bits, map each fragment of bits to a different orthogonal frequency division multiplexed (ofdm) symbol, encode the fragments using on-off keying or frequency shift keying manipulate the encoded fragments to obtain a cyclic signal for each ofdm symbol and transmit a wakeup signal comprising the manipulated fragments.
Inventor(s): Nuno Manuel Kiilerich Pratas of Gistrup (DK) for nokia technologies oy, Thomas Haaning Jacobsen of Nørresundby (DK) for nokia technologies oy, Faranaz Sabouri-Sichani of Aalborg (DK) for nokia technologies oy, Vinh Van phan of Oulu (FI) for nokia technologies oy, Ling Yu of Kauniainen (FI) for nokia technologies oy, Torsten Wildschek of Gloucester (GB) for nokia technologies oy
IPC Code(s): H04L5/00, H04L27/26, H04W72/0446
CPC Code(s): H04L5/001
Abstract: an apparatus comprising circuitry configured to: determine whether a resource pool of a group of time slots associated with a first carrier spacing overlaps with a resource pool of a frame associated with a second carrier spacing within a period of time; wherein the first carrier spacing has a higher frequency than the second carrier spacing, and the period of time comprises the group of time slots associated with the first carrier spacing and the frame associated with the second carrier spacing; and perform sensing of at least one time slot of the group of time slots, based on whether the resource pool of the group of time slots associated with the first carrier spacing overlaps with the resource pool of the frame associated with the second carrier spacing within the period of time.
Inventor(s): Klaus HUGL of Vienna (AT) for nokia technologies oy, Juha Pekka KARJALAINEN of Sotkamo (FI) for nokia technologies oy
IPC Code(s): H04L5/00, H04W72/12, H04W72/232
CPC Code(s): H04L5/0048
Abstract: multi-cell physical uplink shared channel scheduling with sounding reference signal resource sets is provided. the method may include receiving, from a network entity, a first configuration for multi-cell physical uplink shared channel scheduling for a set of cells and receiving a second configuration that includes at least two uplink sounding reference signal resource sets for at least one serving cell of the set of cells. at least two uplink sounding reference signal resource sets may include information relating to usage of codebook and/or non-codebook based physical uplink shared channel transmission. the method also includes receiving a scheduling message indicating to transmit one or more respective physical uplink shared channels on one or more cells, and determining one srs resource set for the pusch transmission including one or more repetitions for the at least one serving cell of the set of cells.
Inventor(s): Oana-Elena BARBU of Aalborg (DK) for nokia technologies oy, Diomidis MICHALOPOULOS of Munich (DE) for nokia technologies oy, Muhammad Ikram ASHRAF of Espoo (FI) for nokia technologies oy
IPC Code(s): H04L25/06, H04L5/00, H04W72/54
CPC Code(s): H04L25/068
Abstract: embodiments of the present disclosure disclose devices, methods and apparatuses for transforming sampled signal. the terminal device receives, from a network device, a request that the terminal device applies a transformation operation to a sampled signal; obtains a transformed signal by applying the transformation operation to the sampled signal; and transmits the transformed signal to the network device. by the proposed processing for the sampled signal, the terminal device-specific rf and/or baseband (bb) architecture becomes transparent to the network device.
Inventor(s): Fahad SYED MUHAMMAD of Massy (FR) for nokia technologies oy, Sakira HASSAN of Espoo (FI) for nokia technologies oy, Dimitri GOLD of Espoo (FI) for nokia technologies oy, István Zsolt KOVÁCS of Aalborg (DK) for nokia technologies oy
IPC Code(s): H04L41/16
CPC Code(s): H04L41/16
Abstract: in accordance with example embodiments of the invention there is at least a method an apparatus to perform receiving or sending, between a network node of a communication network, and a user equipment information comprising a service request for a dedicated bearer for data exchange of at least one of machine learning or artificial intelligence related data, wherein the data exchange is for training at least one of a machine learning or an artificial intelligence model for a particular use case; communicating the information with the communication network; handling control over at least one of an artificial intelligence or machine learning related data exchange through a machine learning-dedicated bearer, wherein the artificial intelligence or machine learning related data exchange comprises: data collection, model transfer, and life cycle management for at least one of a machine learning model or machine learning functionality control signalling.
Inventor(s): Juha Tapio VILKAMO of Helsinki (FI) for nokia technologies oy, Mikko Johannes HONKALA of Espoo (FI) for nokia technologies oy
IPC Code(s): H04S7/00, G10L19/008
CPC Code(s): H04S7/302
Abstract: examples of the disclosure relate to obtaining spatial metadata for use in rendering, or otherwise processing spatial audio. in examples of the disclosure a machine learning model can be used to process microphone signals, or data obtained from microphone signals, to obtain the spatial metadata. the machine learning model can be trained to enable high quality spatial metadata to be obtained from sub-optimal or low-quality microphone arrays. examples of the disclosure include an apparatus including circuitry for: accessing a trained machine learning model; determining input data for the machine learning model based on two or more microphone signals; enabling using the machine learning model to process the input data to obtain spatial metadata; and associating the obtained spatial metadata with at least one signal based on the two or more microphone signals to enable processing of the at least one signal based on the obtained spatial metadata.
Inventor(s): Krzysztof Kordybach of Wroclaw (PL) for nokia technologies oy, Frederic Ratovelomanana of Paris (FR) for nokia technologies oy, Halit Murat Gürsu of Munich (DE) for nokia technologies oy, Ahmad Awada of Munich (DE) for nokia technologies oy, Jean-Michel Pugeat of Paris (FR) for nokia technologies oy
IPC Code(s): H04W24/02, H04W36/00
CPC Code(s): H04W24/02
Abstract: there is provided an apparatus that includes at least one processor and at least one memory storing instructions. the instructions, when executed by the at least one processor, cause the apparatus at least to, receive a list of features of radio resource control (rrc) configuration, where the list is provided by a target secondary node (target sn) of a conditional handover (cho) procedure, and where the list indicates, for each feature of the list of features of rrc configuration, whether a change in the respective feature requires cancellation or re-initialization of cho; and, during the cho procedure, based on information regarding a secondary cell group (scg) reconfiguration for a source secondary node (source sn), compare the information with the list to determine whether the scg reconfiguration requires cancellation or re-initialization of the cho procedure.
20240284207. SPATIAL ADAPTATION FOR ENERGY SAVING_simplified_abstract_(nokia technologies oy)
Inventor(s): Matha DEGHEL of Massy (FR) for nokia technologies oy, Youngsoo YUK of Seoul (KR) for nokia technologies oy
IPC Code(s): H04W24/08, H04W72/23
CPC Code(s): H04W24/08
Abstract: embodiments of the present disclosure relate to devices, methods, apparatuses and computer readable storage media of spatial adaptation for energy saving. the method comprises: receiving, at a first device from a second device, a change indication indicating at least one antenna port of which at least one antenna element is changed. the antenna port is active before and after the change. the method further comprises performing at least one of a measurement of at least one reference signal or a reception of a physical channel in consideration of the at least one antenna port. in this way, the first device may be informed about impact of spatial adaptation of the second device and is able to adapt the impacted channel state information measurement and/or reporting. as such, energy saving can be achieved.
Inventor(s): Sankaran BALASUBRAMANIAM of Bangalore (IN) for nokia technologies oy, Ethiraj ALWAR of Bangalore (IN) for nokia technologies oy
IPC Code(s): H04W24/08, H04L43/04, H04W24/02
CPC Code(s): H04W24/08
Abstract: method comprising:
Inventor(s): Amaanat ALI of Espoo (FI) for nokia technologies oy, Keeth Saliya Jayasinghe LADDU of Espoo (FI) for nokia technologies oy, Mihai ENESCU of Espoo (FI) for nokia technologies oy, Tero HENTTONEN of Espoo (FI) for nokia technologies oy, Hiromasa UMEDA of Tokyo (JP) for nokia technologies oy
IPC Code(s): H04W24/08, H04W24/10
CPC Code(s): H04W24/08
Abstract: this document discloses a solution for performing radio configuration testing. according to an aspect. a method in a terminal device comprises: receiving. from a network node. a request for performing a radio configuration test for selecting operational parameters of the terminal device for a radio connection of the terminal device. the request comprising at least one information element indicating a target performance metric and at least one information element defining limitations to the operational parameters available for the radio configuration test: performing the radio configuration test by testing a plurality of different combinations of operational parameters of the terminal device, within the limitations received from the network node. and determining a performance metric of each of the plurality of different combinations of tested operational parameters: causing transmission of a test report to the network node. the test report indicating at least a combination of tested operational parameters that provides a performance metric closest to the target performance metric; and after transmitting the test report, receiving from the network node a radio configuration defining a set of operational parameters of the terminal devices selected by the network node for the radio connection.
20240284222. MEASUREMENTS WITH INTERRUPTIONS_simplified_abstract_(nokia technologies oy)
Inventor(s): Rafael CAUDURO DIAS DE PAIVA of Aalborg (DK) for nokia technologies oy, Bent Henneberg RYSGAARD of Aalborg (DK) for nokia technologies oy, Jürgen HOFMANN of Munich (DE) for nokia technologies oy, Lars DALSGAARD of Oulu (FI) for nokia technologies oy
IPC Code(s): H04W24/10, H04W24/08
CPC Code(s): H04W24/10
Abstract: embodiments of the present disclosure relate to the procedure for measurements without gaps and with interruptions as well as the related parameters. a terminal device determines at least one parameter of at least one interruption window, wherein an interruption of data communication between a network device and the terminal device is allowed to occur during the at least one interruption window. the terminal device performs one or more measurements during a measurement window associated with the at least one interruption window. it is possible to provide capabilities of the terminal device on interruptions.
Inventor(s): Henri Markus KOSKINEN of Espoo (FI) for nokia technologies oy
IPC Code(s): H04W28/02, H04W28/06
CPC Code(s): H04W28/0278
Abstract: an apparatus may be configured to: determine to report an amount of data in a transmission buffer; determine respective values for a plurality of buffer-size fields that are configured to jointly indicate the amount of data in the transmission buffer, wherein the respective values are determined based on the amount of data in the transmission buffer; generate a buffer-status report, wherein the buffer-status report comprises, at least, the plurality of buffer-size fields; generate a protocol data unit, wherein the protocol data unit comprises, at least, the buffer-status report; and transmit the protocol data unit. an apparatus may be configured to: receive, from a user equipment, a protocol data unit; and determine at least one of: a lower bound for the data in the transmission buffer, or an upper bound for the data in the transmission buffer based on the plurality of buffer-size fields.
Inventor(s): Sanjay Goyal of Denville NJ (US) for nokia technologies oy, Timo Koskela of Oulu (FI) for nokia technologies oy, Keeth Saliya Jayasinghe Laddu of Espoo (FI) for nokia technologies oy, Ali Karimidehkordi of Munich (DE) for nokia technologies oy, Ahmad Awada of Munich (DE) for nokia technologies oy, Panagiotis Spapis of Munich (DE) for nokia technologies oy
IPC Code(s): H04W36/00
CPC Code(s): H04W36/0061
Abstract: in some embodiments, there is provided a method that includes receiving, by a source distributed unit, a configuration for a target distributed unit, wherein the configuration comprises at least one bandwidth part configuration for at least one transmit and receive point at the targeted distributed unit and a channel state information resource configuration of multiple transmit and receive points; in response to receiving a layer 1 measurement report for the target distributed unit, deciding, by the source distributed unit, to switch to the target distributed unit with a multiple transmit and receive points operation; and sending, by the source distributed unit, a cell switch command to a user equipment to change to the target distributed using a multiple transmit and receive points operation, the cell switch command including a bandwidth part identifier and multiple transmit and receive points beam indications. related systems, methods, and articles of manufacture are also disclosed.
20240284275. APPARATUS, METHOD, AND COMPUTER PROGRAM_simplified_abstract_(nokia technologies oy)
Inventor(s): Ahmad AWADA of Munich (DE) for nokia technologies oy, Sanjay GOYAL of Murray Hill NJ (US) for nokia technologies oy, Ali KARIMIDEHKORDI of Munich (DE) for nokia technologies oy, Bernhard WEGMANN of Munich (DE) for nokia technologies oy, Ugur Baran ELMALI of Munich (DE) for nokia technologies oy, Timo KOSKELA of Oulu (FI) for nokia technologies oy
IPC Code(s): H04W36/00, H04W36/08
CPC Code(s): H04W36/0072
Abstract: there is provided a method, computer program, and for an apparatus for causing an apparatus for a user equipment to perform: receiving, a first timing advance value for a target cell supported by a second access node, wherein the first timing advance value indicates a timing for transmitting uplink transmissions to the target cell; receiving, an indication of when the first timing advance value will be invalid; using the indication of when the first timing advance value will be invalid to determine that the first timing advance value is or will soon be invalid; and determining whether to autonomously initiate obtaining a second timing advance value for the target cell in dependence on the determination of whether the first timing advance value is or will soon be invalid, the second timing advance value being obtained later in time than the first timing advance value.
20240284276. APPARATUS, METHOD, AND COMPUTER PROGRAM_simplified_abstract_(nokia technologies oy)
Inventor(s): Ahmad AWADA of Munich (DE) for nokia technologies oy, Sanjay GOYAL of Murray Hill NJ (US) for nokia technologies oy, Ali KARIMIDEHKORDI of Munich (DE) for nokia technologies oy, Bernhard WEGMANN of Munich (DE) for nokia technologies oy, Ugur Baran ELMALI of Munich (DE) for nokia technologies oy, Timo KOSKELA of Oulu (FI) for nokia technologies oy
IPC Code(s): H04W36/00, H04W36/30
CPC Code(s): H04W36/0072
Abstract: there is provided a method, computer program, and apparatus for causing an apparatus for a first access node to perform: establishing a connection towards a user equipment via a serving cell supported by the first access node; instructing the user equipment to obtain a first timing advance value for a target cell supported by a second access node, wherein the first timing advance value indicates a timing for transmitting uplink transmissions to the target cell; receiving, from the user equipment, an indication that the first timing advance value is or will soon be invalid; and determining whether to instruct the user equipment to obtain a second timing advance value for the target cell in dependence on the received indication, the second timing advance value being obtained later in time than the first timing advance value.
20240284278. HANDLING OF RESIDUAL TIMING ADVANCE_simplified_abstract_(nokia technologies oy)
Inventor(s): Rafhael MEDEIROS DE AMORIM of Aalborg (DK) for nokia technologies oy, Alessio MARCONE of Munich (DE) for nokia technologies oy, Jedrzej STANCZAK of Wroclaw (PL) for nokia technologies oy, Frank FREDERIKSEN of Aalborg (DK) for nokia technologies oy
IPC Code(s): H04W36/00, H04W36/08
CPC Code(s): H04W36/00725
Abstract: the invention inter alia pertains to an apparatus for communication with a non-terrestrial network, ntn, the apparatus comprising means configured for:
20240284290. METHOD, APPARATUS AND COMPUTER PROGRAM_simplified_abstract_(nokia technologies oy)
Inventor(s): Navin HATHIRAMANI of Coppell TX (US) for nokia technologies oy, Samuli Heikki TURTINEN of LI (FI) for nokia technologies oy, Jussi-Pekka KOSKINEN of Oulu (FI) for nokia technologies oy
IPC Code(s): H04W36/32, H04W72/1263
CPC Code(s): H04W36/32
Abstract: there is provided a user equipment comprising at least one processor and at least one memory storing instructions that, when executed by the at least one processor, cause the user equipment at least to: receive, from a source cell entity, a physical downlink control channel command; and based on the physical downlink control channel command, initiate a random access procedure to one or more target cells.
Inventor(s): Rafhael MEDEIROS DE AMORIM of Aalborg (DK) for nokia technologies oy, Mads LAURIDSEN of Gistrup (DK) for nokia technologies oy, Jeroen WIGARD of Klarup (DK) for nokia technologies oy
IPC Code(s): H04W36/36, H04W36/24, H04W36/30
CPC Code(s): H04W36/362
Abstract: at a ue in wireless communication with a serving cell in a wireless network, the ue being configured with time-based conditional handover event trigger(s), receiving by the ue indication that the serving cell will be turning off. the ue determines relative timing of the time-based conditional handover event trigger(s) and timing based on the indication of the serving cell turning off. the ue determines whether the relative timing meets a criterion or criteria. the ue modifies, based on the relative timing meeting the criterion or criteria, mobility procedures for the ue that is in a connected state.
20240284295. SERVICE ROUTING FOR USER EQUIPMENT_simplified_abstract_(nokia technologies oy)
Inventor(s): Janne Veikko KAASALAINEN of Espoo (FI) for nokia technologies oy, Tero HENTTONEN of Espoo (FI) for nokia technologies oy, Malgorzata TOMALA of Wroclaw (PL) for nokia technologies oy, Daniela LASELVA of Aalborg (DK) for nokia technologies oy
IPC Code(s): H04W40/02, H04W76/10, H04W88/08
CPC Code(s): H04W40/02
Abstract: a method comprising receiving by a control-plane network entity a service request from a user equipment; selecting by the control-plane network entity at least one control plane routing identifier for the user equipment; and sending by the control-plane network entity the at least one control plane routing identifier to the user equipment.
Inventor(s): Daejung YOON of Nozay (FR) for nokia technologies oy, Jorge MORTE PALACIOS of Tampere (FI) for nokia technologies oy, Satya Krishna JOSHI of Oulu (FI) for nokia technologies oy
IPC Code(s): H04W40/08, H04L5/00, H04W64/00
CPC Code(s): H04W40/08
Abstract: a method can include determining that a received signal traveled via a shortest path from a transmitting device to a receiving device of an orthogonal frequency-divisional multiplexing (ofdm) communication system, determining a phase rotation of the received signal, and determining a time of arrival based on the determined phase rotation.
Inventor(s): Ahlem KHLASS of Massy (FR) for nokia technologies oy, Mads LAURIDSEN of Aalborg (DK) for nokia technologies oy, Daniela LASELVA of Aalborg (DK) for nokia technologies oy, Gagandeep BHATTI of Dallas TX (US) for nokia technologies oy
IPC Code(s): H04W52/02, H04B17/318, H04W24/10, H04W56/00
CPC Code(s): H04W52/0206
Abstract: a method including determining, with a user equipment, to use a measurement and reporting configuration based, at least partially, upon a network energy saving state of a target cell; measuring, with the user equipment, with use of the measurement and reporting configuration; and determining, with the user equipment, to transmit a measurement report based upon the determined measurement and reporting configuration.
Inventor(s): Stefano Paris of Vanves (FR) for nokia technologies oy, Knud Knudsen of Aabybro (DK) for nokia technologies oy, Jorma Johannes Kaikkonen of Oulu (FI) for nokia technologies oy, Daniela Laselva of Klarup (DK) for nokia technologies oy
IPC Code(s): H04W52/02, H04L5/00, H04W72/23
CPC Code(s): H04W52/0229
Abstract: a technique may include detecting, by a user device, a low power-wakeup signal by a low power-wakeup receiver of the user device received from a network node; enabling a main transceiver of the user device based on the detecting the low power-wakeup signal; and transmitting, by the main transceiver of the user device to the network node, wakeup signal feedback acknowledging the detecting the low power-wakeup signal.
20240284331. MEASUREMENTS TO SUPPORT LOW POWER WUS_simplified_abstract_(nokia technologies oy)
Inventor(s): David BHATOOLAUL of Swindon (GB) for nokia technologies oy, Jussi-Pekka KOSKINEN of Oulu (FI) for nokia technologies oy, Knud KNUDSEN of Aalborg (DK) for nokia technologies oy, Ganesh VENKATRAMAN of Oulu (FI) for nokia technologies oy, Alok SETHI of Oulu (FI) for nokia technologies oy, Jorma Johannes KAIKKONEN of Oulu (FI) for nokia technologies oy, Brajesh SONI of Bangalore (IN) for nokia technologies oy
IPC Code(s): H04W52/02
CPC Code(s): H04W52/0229
Abstract: there is provided a method, comprising obtaining an evaluation configuration including at least one metric for low power wake-up signal, lp-wus, trustworthiness evaluation; detecting at least one provided wake-up triggering signal; by use of one metric out of the at least one metric, evaluating the at least one detected wake-up triggering signal based on determining whether or not a condition included in the one metric is fulfilled; and providing a report comprising information indicative of at least a result obtained from the determining of whether or not the condition is fulfilled.
Inventor(s): Kari Juhani HOOLI of Oulu (FI) for nokia technologies oy, Knud KNUDSEN of Aabybro (DK) for nokia technologies oy, Jorma Johannes KAIKKONEN of Oulu (FI) for nokia technologies oy, Mads LAURIDSEN of Gistrup (DK) for nokia technologies oy, Jussi-Pekka KOSKINEN of Oulu (FI) for nokia technologies oy, Daniela LASELVA of Klarup (DK) for nokia technologies oy
IPC Code(s): H04W52/02
CPC Code(s): H04W52/0235
Abstract: wake-up signal beacon arrangement for wake-up signal coverage detection is provided. a method for wake-up signal beacon arrangement for wake-up signal coverage detection may include receiving at least one configuration for a first wake-up signal beacon and a second wake-up signal beacon. a power or energy of the second wake-up signal beacon may be lower than a power or energy of the first wake-up signal beacon. the method may also include monitoring a current cell for wake-up signal beacons during a wake-up signal mode using the received at least one configuration, and modifying the monitoring of the current cell based on a detection metric. the detection metric may be determined based on at least the second wake-up signal beacon.
20240284340. Panel Specific UL Power Control_simplified_abstract_(nokia technologies oy)
Inventor(s): Kyoungmin PARK of Suji gu (KR) for nokia technologies oy, Juha P. KARJALAINEN of Oulu (FI) for nokia technologies oy, Sami-Jukka HAKOLA of Kempele (FI) for nokia technologies oy, Mihai ENESCU of Espoo (FI) for nokia technologies oy
IPC Code(s): H04W52/14, H04W16/28, H04W52/10, H04W52/24
CPC Code(s): H04W52/146
Abstract: systems, methods, apparatuses, and computer program products for panel specific uplink power control. a method may include receiving, at a user equipment, an uplink grant indicating an uplink candidate beam for uplink transmission; receiving, at the user equipment, a plurality of power control configurations, wherein one of a plurality of sources of spatial relation information is associated with one of the plurality of power control configurations; determining, at the user equipment, a power control configuration of the plurality of power control configurations for the indicated uplink candidate beam based on an association between a source of spatial relation information and the power control configuration; and transmitting, from the user equipment, uplink data using the indicated uplink candidate beam and the determined power control configuration.
20240284347. FILTER POWER DISTRIBUTION INDICATION_simplified_abstract_(nokia technologies oy)
Inventor(s): Majed SAAD of Massy (FR) for nokia technologies oy, Esa Tapani TIIROLA of Oulu (FI) for nokia technologies oy, Nhat-Quang NHAN of Reims (FR) for nokia technologies oy, Oskari TERVO of Oulu (FI) for nokia technologies oy, Marco MASO of Issy les Moulineaux (FR) for nokia technologies oy, Arto LEHTI of Antony (FR) for nokia technologies oy
IPC Code(s): H04W52/34, H04W52/36
CPC Code(s): H04W52/34
Abstract: systems, methods, apparatuses, and computer program products for filter power distribution indication. a method may include determining a first size of a first part of a frequency band segment within a total bandwidth allocation, and a second size of a second part of the frequency band segment. the method may also include determining a value indicative of a power spectral density difference or power difference between the first part and the second part. the method may further include generating a power indication of the frequency band segment within the total bandwidth allocation based on the power spectral density difference. in addition, the method may include signaling, to a network element, the power indication for the frequency band segment within the total bandwidth allocation.
Inventor(s): Majed SAAD of Massy (FR) for nokia technologies oy, Marco MASO of Issy les Moulineaux (FR) for nokia technologies oy, Oskari TERVO of Oulu (FI) for nokia technologies oy, Arto LEHTI of Antony (FR) for nokia technologies oy, Nhat-Quang NHAN of Reims (FR) for nokia technologies oy
IPC Code(s): H04W52/36, H04W52/42
CPC Code(s): H04W52/365
Abstract: systems, methods, apparatuses, and computer program products for power headroom enhancements and triggers for waveforms. a method may include determining, an event which triggers a power headroom report to report a headroom between a current user equipment transmission power and a nominal power. the determination may depend at least partially on a configuration of frequency domain spectrum shaping. the method may also include generating a power headroom report based on the event. the method may further include transmitting the power headroom report to a network element.
Inventor(s): Dileep KUMAR of Espoo (FI) for nokia technologies oy, Satya Krishna JOSHI of Oulu (FI) for nokia technologies oy, Mikko SÄILY of Espoo (FI) for nokia technologies oy, Taylan SAHIN of Munich (DE) for nokia technologies oy
IPC Code(s): H04W52/36, H04W16/28, H04W24/10
CPC Code(s): H04W52/367
Abstract: disclosed is a method comprising obtaining measurement information comprising radio environment measurements associated with a user device; determining, based at least on the measurement information and a maximum permissible exposure limit, one or more beamforming resource sets for the user device such that the maximum permissible exposure limit is not exceeded with at least one beamforming resource set of the one or more beamforming resource sets; and transmitting a message indicative of the at least one beamforming resource set to be used for selecting at least one transmit beam direction at the user device in case the maximum permissible exposure limit is exceeded.
20240284353. TIMING RELATED STATUS UPDATE_simplified_abstract_(nokia technologies oy)
Inventor(s): Chunli WU of Beijing (CN) for nokia technologies oy, Samuli Heikki TURTINEN of Oulu (FI) for nokia technologies oy, Jussi-Pekka KOSKINEN of Oulu (FI) for nokia technologies oy, Tero HENTTONEN of Espoo (FI) for nokia technologies oy
IPC Code(s): H04W56/00, H04W48/18
CPC Code(s): H04W56/001
Abstract: embodiments of the present disclosure disclose devices, methods and apparatuses for timing related status update. a terminal device identifies an access attempt for a network timing related status update; and performs an access control on the access attempt for the network timing related status update.
20240284358. ALLOCATION OF CORESET#0 FOR NEW RADIO_simplified_abstract_(nokia technologies oy)
Inventor(s): Esa Tapani TIIROLA of Oulu (FI) for nokia technologies oy, Sami-Jukka HAKOLA of Oulu (FI) for nokia technologies oy, Kari Juhani HOOLI of Oulu (FI) for nokia technologies oy, Klaus HUGL of Vienna (AT) for nokia technologies oy, Timo Erkki LUNTTILA of Espoo (FI) for nokia technologies oy
IPC Code(s): H04W56/00, H04L1/00
CPC Code(s): H04W56/0015
Abstract: systems, methods, apparatuses, and computer program products for allocation of coreset #0 for new radio (nr). a method may include determining a control resource set zero configuration table to be applicable based on a synchronization raster of a narrowband new radio where a synchronization signal block has been detected; receiving a physical broadcast channel according to a puncturing assumption; obtaining, from a master information block indicated in the received physical broadcast channel, a row index pointing into the control resource set zero configuration table; determining information related to at least one of information of punctured or non-punctured resource blocks, or interleaving information, based on the row index; and using the determined information to determine the control resource set zero for the narrowband new radio.
Inventor(s): Bent Henneberg RYSGAARD of Aalborg (DK) for nokia technologies oy, Rafael Cauduro Dias De Paiva of Aalborg (DK) for nokia technologies oy, Jürgen Hofmann of Munich (DE) for nokia technologies oy
IPC Code(s): H04W56/00, H04L5/00, H04W8/22, H04W76/20
CPC Code(s): H04W56/0015
Abstract: an apparatus may be configured to: determine at least one parameter associated with measurement of at least one synchronization signal block (ssb), wherein the at least one parameter comprises at least one of: an indication of a time period between measurements of ssbs, an indication of a minimum time period between measurements of ssbs, an indication of a first time period to switch from measurement of an ssb to transmission, an indication of a second time period to switch from reception to measurement of the ssb, an indication of a third time period to switch from measurement of the ssb to reception, or an indication of a fourth time period to switch from transmission to measurement of the ssb; and transmit, to a network entity, the at least one parameter related to a switching time between measurement and transmission or reception.
20240284369. APPARATUS, METHOD, AND COMPUTER PROGRAM_simplified_abstract_(nokia technologies oy)
Inventor(s): Ahmad AWADA of Munich (DE) for nokia technologies oy, Sanjay GOYAL of Murray Hill NJ (US) for nokia technologies oy, Ali KARIMIDEHKORDI of Munich (DE) for nokia technologies oy, Bernhard WEGMANN of Munich (DE) for nokia technologies oy, Ugur Baran ELMALI of Munich (DE) for nokia technologies oy, Timo KOSKELA of Oulu (FI) for nokia technologies oy
IPC Code(s): H04W56/00, H04B17/318, H04W24/10, H04W76/10
CPC Code(s): H04W56/0045
Abstract: there is provided a method, computer program, and apparatus for causing an apparatus for a first access node to perform: establishing a connection towards a user equipment via a serving cell supported by the first access node; instructing the user equipment to obtain a first timing advance value for a target cell supported by a second access node, wherein the first timing advance value indicates a timing for transmitting uplink transmissions to the target cell; receiving, from the second access node, an indication that the first timing advance value is or will soon be invalid; and determining whether to instruct the user equipment to obtain a second timing advance value for the target cell in dependence on the received indication, the second timing advance value being obtained later in time than the first timing advance value.
Inventor(s): Sanjay Goyal of Denville NJ (US) for nokia technologies oy, Timo Koskela of Oulu (FI) for nokia technologies oy, Keeth Saliya Jayasinghe Laddu of Espoo (FI) for nokia technologies oy, Ali Karimidehkordi of Munich (DE) for nokia technologies oy, Ahmad Awada of Munich (DE) for nokia technologies oy, Halit Murat Guersu of Munich (DE) for nokia technologies oy, Panagiotis Spapis of Munich (DE) for nokia technologies oy, Umur Karabulut of Munich (DE) for nokia technologies oy
IPC Code(s): H04W56/00, H04W72/23
CPC Code(s): H04W56/005
Abstract: in some embodiments, there may be provided a method that includes receiving timing advance acquisition parameters associated with multiple transmit receive points at a target distributed unit, wherein the timing advance acquisition parameters comprise, for the multiple transmit receive points, synchronization signal block indices, random access preamble indices, and physical random access channel mask indices; sending downlink control information to a user equipment, the downlink control information comprising an identifier of the target distributed unit, codepoints for the synchronization signal block indices, the random access preamble indices, and the physical random access channel mask indices; receiving timing advance estimates from the target distributed unit, wherein the timing advance estimates comprise estimates of timing advances associated with multiple transmit receive points at the target distributed unit; and sending the timing advance estimates associated with the multiple transmit receive points at the target distributed unit, to the user equipment.
20240284379. SIDELINK POSITIONING_simplified_abstract_(nokia technologies oy)
Inventor(s): Prajwal KESHAVAMURTHY of Munich (DE) for nokia technologies oy, Stepan KUCERA of Munich (DE) for nokia technologies oy, Diomidis MICHALOPOULOS of Munich (DE) for nokia technologies oy, Anastasios KAKKAVAS of Munich (DE) for nokia technologies oy
IPC Code(s): H04W64/00, H04L5/00
CPC Code(s): H04W64/00
Abstract: example embodiments of the present disclosure relate to sidelink positioning. in an example method, a terminal device detects a positioning reference signal (prs) from a second terminal device and location information transmission associated with the prs in case the location information was transmitted. the terminal device determines that the prs is transmitted without location information of the second terminal device. the terminal device transmits, to a network device, indication information for indicating the prs transmitted without the location information of the second terminal device. sidelink positioning performance can be improved.
Inventor(s): Jeroen WIGARD of Aalborg (DK) for nokia technologies oy, Frank FREDERIKSEN of Aalborg (DK) for nokia technologies oy, Enric JUAN of Aalborg (DK) for nokia technologies oy
IPC Code(s): H04W64/00, H04L5/00, H04W84/06
CPC Code(s): H04W64/00
Abstract: an approach is provided for network-based positioning in non-terrestrial networks. the approach, for example, involves receiving a downlink position reference signal from a network node of a non-terrestrial network. the approach also involves determining whether the user device is in either line-of-sight or non-line-of-sight with respect to a network node of a non-terrestrial network. the approach further involves performing at least one of: (a) based on determining that the user device is in line-of-sight, transmitting a sounding reference signal for positioning to the network node; and (b) based on determining that the user device is in non-line-of-sight, transmitting the sounding reference signal for positioning to the network node for a number of repetitions.
Inventor(s): Prajwal KESHAVAMURTHY of Munich (DE) for nokia technologies oy, Stepan KUCERA of Munich (DE) for nokia technologies oy, Diomidis MICHALOPOULOS of Munich (DE) for nokia technologies oy, Anastasios KAKKAVAS of Munich (DE) for nokia technologies oy
IPC Code(s): H04W64/00, G01S5/00, G01S5/02, H04W8/24
CPC Code(s): H04W64/006
Abstract: embodiments of the present disclosure disclose methods and apparatuses for sidelink positioning. a first terminal device transmits capability information of the first terminal device along with a positioning reference signal (prs), and the capability information indicates a capability to provide the location information of the first terminal device. then the first terminal device receives a request for the location information of the first terminal device from a second terminal device. based on receiving the request, the first terminal device transmits the location information along with a subsequent prs. as such, in embodiments of the present disclosure, the first terminal device may transmit location information according to the request of the second terminal device. thereby the sidelink positioning performance is improved.
20240284407. SIDELINK RESPONSE TIME VALUE SELECTION_simplified_abstract_(nokia technologies oy)
Inventor(s): Prajwal KESHAVAMURTHY of Munich (DE) for nokia technologies oy, Oana-Elena BARBU of Aalborg (DE) for nokia technologies oy, Torsten WILDSCHEK of Gloucester (GB) for nokia technologies oy, Ryan KEATING of Naperville IL (US) for nokia technologies oy, Hyun-Su CHA of Naperville IL (US) for nokia technologies oy
IPC Code(s): H04W72/02, H04L5/00, H04W72/0446, H04W72/40, H04W72/51, H04W92/18
CPC Code(s): H04W72/02
Abstract: an anchor user equipment is configured to: select a sidelink response time value from a plurality of sidelink response time values configured for the user equipment and a target user equipment; and transmit a positioning reference signal to the target user equipment based at least partly on at least one positioning reference signal transmission parameter associated with the selected sidelink response time value. a target user equipment is configured to: receive a positioning reference signal transmitted by an anchor user equipment; identify at least one positioning reference signal transmission parameter associated with the received positioning reference signal; and determine, based on the at least one positioning reference signal transmission parameter, a sidelink response time value for transmission of the received positioning reference signal by the anchor user equipment, the sidelink response time value being for determining position information for the user equipment.
20240284416. TRANSMITTING SIGNAL ON CO-CHANNEL RESOURCES_simplified_abstract_(nokia technologies oy)
Inventor(s): Vinh VAN PHAN of Oulu (FI) for nokia technologies oy, Torsten Wildschek of Gloucester (GB) for nokia technologies oy, Thomas Haaning Jacobsen of Aalborg (DK) for nokia technologies oy, Faranaz Sabouri-Sichani of Aalborg (DK) for nokia technologies oy, Ling Yu of Espoo (FI) for nokia technologies oy, Jari Olavi Lindholm of Espoo (FI) for nokia technologies oy
IPC Code(s): H04W72/0446, H04W72/40
CPC Code(s): H04W72/0446
Abstract: disclosed is a method comprising determining whether one or more physical sidelink feedback channel symbols are allocated in at least one time slot; and transmitting, based on the determination, a signal on one or more co-channel resources in the at least one time slot.
Inventor(s): Thomas Haaning JACOBSEN of Aalborg (DK) for nokia technologies oy, Nuno Manual Kiilerich Pratas of Aalborg (DK) for nokia technologies oy, Renato Barbosa Abreu of Aalborg (DK) for nokia technologies oy, Torsten Wildschek of Gloucester (GB) for nokia technologies oy, Daniel Medina of Munich (DE) for nokia technologies oy, Takayuki Shimizu of Mountain View CA (US) for nokia technologies oy
IPC Code(s): H04W72/044, H04L5/00, H04W72/02, H04W72/40
CPC Code(s): H04W72/046
Abstract: a method, apparatus, and computer readable storage medium provide sidelink beam alignment between devices. in the context of a method performed by a first user equipment (ue), the first ue causes transmission of a first plurality of reference signals to a second ue to facilitate selection of a first preferred beam among a plurality of beams of the second ue. the method also receives a second plurality of reference signals from the second ue using a plurality of beams of the first ue. the method further includes selecting a second preferred beam from the plurality of beams of the first ue based on the second plurality of reference signals.
20240284431. REPORTING BEAM FAILURE_simplified_abstract_(nokia technologies oy)
Inventor(s): Timo KOSKELA of Oulu (FI) for nokia technologies oy, Samuli TURTINEN of Ii (FI) for nokia technologies oy, Chunli WU of Beijing (CN) for nokia technologies oy, Mihai ENESCU of Espoo (FI) for nokia technologies oy, Sami HAKOLA of Kempele (FI) for nokia technologies oy
IPC Code(s): H04W72/044, H04W16/28, H04W24/10, H04W72/02, H04W72/1268, H04W72/21, H04W72/23, H04W74/04
CPC Code(s): H04W72/046
Abstract: embodiments of the present disclosure relate to reporting beam failure. a terminal device detects a beam failure on one or more serving cells of the terminal device. if the beam failure is detected on the one or more serving cells, the terminal device obtains information concerning one or more candidate beams and the one or more serving cells. each of the one or more candidate beams is associated with a respective one of the one or more serving cells. the terminal device then transmits at least a portion of the information to a network device associated with the one or more serving cells.
Inventor(s): Arman AHMADZADEH of Munich (DE) for nokia technologies oy, Alessio MARCONE of Munich (DE) for nokia technologies oy, Frank FREDERIKSEN of Aalborg (DK) for nokia technologies oy
IPC Code(s): H04W72/1268, H04L5/00, H04W72/0446, H04W72/0453
CPC Code(s): H04W72/1268
Abstract: a method, apparatus, and computer program product are disclosed for reporting time and frequency compensation updates to a base station in a 5g network. in this regard, an example method is configured to determine an actual time domain window based at least in part on a time domain window received at the user equipment from a base station, and on at least one adjustment to at least one of time or frequency of a reference signal due to a physical characteristic of a transmission environment. the example method may further cause a compensation report to be transmitted to the base station in a control channel message within the uplink communication stream. the compensation report includes an indication of the at least one adjustment. the method further causes the reference signal to be transmitted in the actual time domain window to the base station.
Inventor(s): Amir Mehdi AHMADIAN TEHRANI of Munich (DE) for nokia technologies oy, Nhat-Quang NHAN of Massy (FR) for nokia technologies oy, Marco MASO of Massy (FR) for nokia technologies oy, Alessio MARCONE of Munich (DE) for nokia technologies oy, Karim KASAN of Nozay (FR) for nokia technologies oy, Majed SAAD of Massy (FR) for nokia technologies oy
IPC Code(s): H04W72/231, H04W72/0453, H04W72/1268
CPC Code(s): H04W72/231
Abstract: a method in comprises determining, at an apparatus, a feature of at least one feature according to a list of at least one list causing transmission, at the apparatus, of a ul transmission according to the feature. the determining based on a number of bits (n), the at least one list of at least one waveform dependent field, one or more bits of at least one waveform dependent field of downlink control information (dci) for scheduling an uplink (ul) transmission, an indication that dynamic waveform switching (dws) is utilized of the downlink control information (dci) for scheduling the uplink (ul) transmission, and a waveform indicated by the downlink control information (dci) for scheduling an uplink (ul) transmission.
Inventor(s): Esa Mikael MALKAMÄKI of Espoo (FI) for nokia technologies oy, Bighnaraj Panigrahi of Bangalore (IN) for nokia technologies oy, Philippe Godin of Massy (FR) for nokia technologies oy, Ugur Baran Elmali of Munich (DE) for nokia technologies oy, Chitradeep Majumdar of Bangalore (IN) for nokia technologies oy
IPC Code(s): H04W72/30, H04W72/232
CPC Code(s): H04W72/30
Abstract: embodiments of the present disclosure disclose devices, methods and apparatuses for multicast transmission. a terminal device may receive a mode indication of multicast transmission from a network device. the mode indication may indicate a beam mapping mode which is activated among multiple beam mapping modes, and the beam mapping mode may be associated with a mapping between a transmission beam and a physical downlink control channel (pdcch) monitoring occasion for the terminal device. the terminal device may further perform a pdcch monitoring based on the mode indication.
20240284520. METHODS AND DEVICES FOR BEAM MAINTENANCE_simplified_abstract_(nokia technologies oy)
Inventor(s): Sami-Jukka HAKOLA of Oulu (FI) for nokia technologies oy, Timo KOSKELA of Oulu (FI) for nokia technologies oy, Juha Pekka KARJALAINEN of Oulu (FI) for nokia technologies oy
IPC Code(s): H04W74/0838
CPC Code(s): H04W74/0838
Abstract: embodiments of the present disclosure relate to methods and apparatus for beam maintenance in a radio access network, in particular, through random access preamble transmission for beam maintenance. a terminal device receives, from a network device, a resource configuration for contention-free random access. the resource configuration indicates a plurality of cfra resources each associated with a respective synchronization signal and physical broadcast channel block index or channel state information reference signal index. the plurality of cfra resources are applicable for timing advance acquiring in a target network device. the terminal device transmits, to the target network device, one or more cfra physical random access channels based on the resource configuration. in this way, beam maintenance may be performed based on an ssb index or csi-rs index associated with one of the transmitted cfra prach(s) before a cell switch command or a random access response.
Nokia Technologies Oy patent applications on August 22nd, 2024
- Nokia Technologies Oy
- G06F11/22
- CPC G06F11/2257
- Nokia technologies oy
- G06N20/00
- CPC G06N20/00
- G06V10/44
- G06F21/30
- CPC G06V10/443
- H04B7/0456
- CPC H04B7/0486
- H04B7/06
- H04L5/00
- H04W24/10
- CPC H04B7/0691
- H04B17/309
- H04W64/00
- CPC H04B17/309
- H04L1/1812
- CPC H04L1/1812
- H04L27/26
- H04W52/02
- CPC H04L5/0007
- H04W72/0446
- CPC H04L5/001
- H04W72/12
- H04W72/232
- CPC H04L5/0048
- H04L25/06
- H04W72/54
- CPC H04L25/068
- H04L41/16
- CPC H04L41/16
- H04S7/00
- G10L19/008
- CPC H04S7/302
- H04W24/02
- H04W36/00
- CPC H04W24/02
- H04W24/08
- H04W72/23
- CPC H04W24/08
- H04L43/04
- CPC H04W24/10
- H04W28/02
- H04W28/06
- CPC H04W28/0278
- CPC H04W36/0061
- H04W36/08
- CPC H04W36/0072
- H04W36/30
- CPC H04W36/00725
- H04W36/32
- H04W72/1263
- CPC H04W36/32
- H04W36/36
- H04W36/24
- CPC H04W36/362
- H04W40/02
- H04W76/10
- H04W88/08
- CPC H04W40/02
- H04W40/08
- CPC H04W40/08
- H04B17/318
- H04W56/00
- CPC H04W52/0206
- CPC H04W52/0229
- CPC H04W52/0235
- H04W52/14
- H04W16/28
- H04W52/10
- H04W52/24
- CPC H04W52/146
- H04W52/34
- H04W52/36
- CPC H04W52/34
- H04W52/42
- CPC H04W52/365
- CPC H04W52/367
- H04W48/18
- CPC H04W56/001
- H04L1/00
- CPC H04W56/0015
- H04W8/22
- H04W76/20
- CPC H04W56/0045
- CPC H04W56/005
- CPC H04W64/00
- H04W84/06
- G01S5/00
- G01S5/02
- H04W8/24
- CPC H04W64/006
- H04W72/02
- H04W72/40
- H04W72/51
- H04W92/18
- CPC H04W72/02
- CPC H04W72/0446
- H04W72/044
- CPC H04W72/046
- H04W72/1268
- H04W72/21
- H04W74/04
- H04W72/0453
- CPC H04W72/1268
- H04W72/231
- CPC H04W72/231
- H04W72/30
- CPC H04W72/30
- H04W74/0838
- CPC H04W74/0838