Patent application number | Description | Published |
20090128406 | METHOD AND APPARATUS FOR NAVIGATION SYSTEMS - The invention relates to navigation systems and elements. A network element (M) includes a controlling element (M. | 05-21-2009 |
20090140918 | Supporting a Satellite Based Positioning - A satellite signal receiver | 06-04-2009 |
20090303129 | METHOD FOR POSITIONING, A POSITIONING SYSTEM, AND AN ELECTRONIC DEVICE - A method for positioning a wireless communication device includes storing position data relating to one or a plurality of reference areas to at least one data base. It is examined which of said reference areas is located in the vicinity of the wireless communication device, and at least position data about the reference area located in the vicinity of the wireless communication device is retrieved for the wireless communication device. In order to perform the positioning, the method further includes selecting the reference area located in the vicinity of the wireless communication device as the default position of the wireless communication device. | 12-10-2009 |
20100049469 | Relative positioning - For supporting a relative positioning, information on barometric pressure at a first device and information on barometric pressure at a second device is converted into a difference in altitude between the first device and the second device. The difference in altitude between the first device and the second device is then used in determining a position of the first device relative to the second device. | 02-25-2010 |
20110216703 | Spread Spectrum Transmission Systems - A code phase signalling module arranged to provide code phase signalling to assist in signal acquisition of direct sequence spread spectrum signalling received by a receiver module from a transmitter module. The code phase signalling is arranged to be used by the receiver module to synchronise the phase of a synchronisation code provided from within the receiver module with the phase of a modulation code of the direct spread spectrum sequence signalling received by the receiver module. The synchronisation code sequence corresponds to the modulation code sequence. The code phase signalling module is arranged to provide code phase time signalling representing the offset time of the synchronisation code from a reference time. The reference time is associated with the time of transmission of a particular reference portion of the modulation code of the direct spread spectrum signaling. | 09-08-2011 |
20120206298 | METHOD AND APPARATUS FOR NAVIGATION SYSTEMS - The invention relates to a network element comprising a controlling element for forming assistance data relating to two or more signals transmitted by a reference station of at least one navigation system; and a transmitter for transmitting the assistance data via a communications network to a device. The device comprises a positioning receiver for performing positioning on the basis of two or more signals transmitted by a reference station of the at least one satellite navigation system; a receiver for receiving the assistance data from the network element; and an examining element configured to examine the received assistance data to find out information relating to the status of the two or more signals. The information comprises indication on the reference station the signal relates to, and the status indicates the usability of the signal. | 08-16-2012 |
Patent application number | Description | Published |
20100029218 | Apparatus, methods and computer programs - A method including: processing at a first processing frequency, such that each instance of processing is separated by a first processing time period, at least a first signal; increasing the processing frequency to a second processing frequency and switching from processing the first signal to processing a second signal; determining a parameter indicative of the quality of the second signal; and determining, within the first processing time period measured from the last instance of processing the first signal at the first frequency, which one or more signals to process at the next instance of processing by comparing respective parameters of at least the first and second signals. | 02-04-2010 |
20110175773 | MANAGING THE MEASUREMENT OF SIGNALS - For managing measurements on signals, a quality of received signals, for which a measurement circuit provides measurement results, is monitored. In the case that the quality does not exceed a set quality before Receive and monitor signal measurements an end of a reporting period, a reporting of measurement results that are available at the end of the reporting period is caused. In the case that the quality exceeds the set quality at a measurement instant before the end of the reporting period, the measurement circuit is put to a sleep mode and a reporting of extrapolated measurement results is caused, the extrapolated measurement results being measurement results from a measurement instant before the measurement circuit was put to a sleep mode extrapolated to the end of the reporting period. | 07-21-2011 |
20120276886 | Method and Apparatus for Acquiring Information Related to a Position - In accordance with an example embodiment of the present invention, a method and an apparatus are shown comprising receiving status information of an apparatus, and determining a probability for an update of information related to a position being obtained based on the status information. Based on the determined probability and an elapsed time since a last update of the information related to a position, it is determined whether to activate a receiver in order to obtain the update of information related to a position. | 11-01-2012 |
Patent application number | Description | Published |
20140192663 | Power Difference Between SCell and PCell in a Carrier Aggregation System - In accordance with an example embodiment of the present invention, a method is disclosed. Determining that downlink reception on a first CC is degraded due to interference caused by a second CC. In response to the determining, arranging UL signaling to inform a network of a quantitative power difference between the first and the second CC and further identifying which of the first or second CCs exhibits a higher power. | 07-10-2014 |
20140369435 | SPACE-TIME CHANNEL SOUNDING IN WIRELESS NETWORK - A method, apparatus, and computer program for carrying out channel sounding are provided. Said method comprises: causing, by an apparatus, transmission of a request for space-time channel sounding to at least one unassociated access node; receiving, in the apparatus as a multi-antenna transmission and in response to said request, at least one message comprising space-time sounding information from at least one unassociated access node; determining, by the apparatus, at least one parameter describing space-time channel quality from the received space-time sounding information; and causing, by the apparatus, transmission of the at least one determined parameter to an associated access node or causing selection of an unassociated access node for further communication based at least partly on the determined at least one parameter. | 12-18-2014 |
20150139083 | COMMUNICATION EFFICIENCY - There is provided a method comprising: determining, by a transmitter node, maximum packet duration for a data packet to be transmitted, wherein the data packet comprises a plurality of data units; causing a transmission of the data packet; causing a reception of an acknowledgement frame indicating a failed reception of multiple consecutive data units of the transmitted data packet; determining a transmission duration during which the failed multiple consecutive data units were transmitted; and determining whether or not to adjust the maximum packet duration for upcoming data packet transmissions on the basis of the determined transmission duration. | 05-21-2015 |
Patent application number | Description | Published |
20110124340 | RADIO PROBLEM DETECTION ASSISTED RESCUE HANDOVER - Rescue handovers of user equipment, for example, may be accomplished by a method that includes detecting that a downlink radio link cannot be reliably received. The method can also include initiating sending a report that the downlink radio link cannot be reliably received when the detecting indicates that the downlink radio link cannot be reliably received. The method can further include initiating performing a handover upon obtaining handover instructions responsive to the report. | 05-26-2011 |
20130231151 | METHOD, APPARATUS, AND COMPUTER PROGRAM PRODUCT FOR PROBE REQUEST AND RESPONSE EXCHANGE - Method, apparatus, and computer program product embodiments of the invention are disclosed to improve the discovery of wireless networks. In example embodiments of the invention, a method comprises: transmitting a wireless message including at least one condition for response from one or more wireless devices, the condition for response including at least one of receive power of the wireless message at the one or more wireless devices, service level of the one or more wireless devices, or identity of the one or more wireless devices that can respond with a selected response; and receiving one or more responses from the one or more wireless devices that can satisfy the at least one condition. | 09-05-2013 |
20140378121 | TERMINATION OF SERVICE PERIOD IN WIRELESS NETWORK - This document discloses methods, apparatuses, and computer programs for operating a wireless apparatus during a service period between two wireless apparatuses. The service period comprises a first period during which only one of the apparatuses may terminate the service period and another period during which the other apparatus may terminate the service period. | 12-25-2014 |
20150106530 | Communication Efficiency - There is provided a solution in which a wireless node is caused to configure a plurality of transport layer protocol streams for a communication with another node via at least one communication path, wherein each transport layer protocol stream has a different maximum segment size; monitor at least one performance parameter of each communication path between the wireless node and the other node; and select at least one transport layer protocol stream for the communication on the basis of the monitoring. | 04-16-2015 |