| Patent application number | Description | Published |
|---|
| 20080309490 | Methodology, Module, Terminal, and System Enabling Scheduled Operation of a Radio Frequency Identification (Rfid) Subsystem and a Wireless Communication Subsystem - The invention relates to a method for scheduling communications over a wireless communication subsystem and a radio frequency identification (RFID) communication subsystem, said method comprising determining one or more periods of activity of the wireless communication subsystem; deriving one or more periods of non-activity on the basis of the one or more determined periods of activity; synchronizing an operation of the radio frequency identification (RFID) communication subsystem with the one or more periods of non-activity; and triggering the operation of the radio frequency identification (RFID) communication subsystem in accordance with the one or more derived periods of non-activity to enable substantially concurrent communications operation of the wireless communication subsystem and the radio frequency identification (RFID) communication subsystem. | 12-18-2008 |
| 20090232189 | Method, apparatus and computer program to efficiently acquire signals in a cognitive radio environment - Signal instances are detected from within a long period of a received radiofrequency RF signal envelope, grouped according to signal level, and periodicities are determined among the grouped signal instances. Periodicity of one of the groups is matched to a known periodicity, and a frequency domain is estimated at a time instance derived from the matched periodicity. If an expected frequency pattern is found that occupies the derived time instance in the estimated frequency domain, then a receiver is synchronized to a candidate signal that lies within the frequency pattern. Then content of the candidate signal is decoded and that content is used to access a cognitive radio system (e.g., register to the system, start the normal operation in the network such as spectrum detection and/or transmission in a traffic channel, etc.). | 09-17-2009 |
| 20090252178 | Method, apparatus and computer program for self-adjusting spectrum sensing for cognitive radio - A cognitive radio determines a frequency channel of a spectrum, determines from a locally stored association of individual channels to either of at least two categories (e.g., in use and backup, other is a third category) a selected category for the determined frequency channel. From the selected category is determined a time at which to sense the determined frequency channel. The determined frequency channel is then sensed at the determined time and results of the sensing may be transmitted. Timers may be associated with each of the categories and adjusted based on density of cognitive nodes. A timer for the in use category is shortest, a timer for the other category is longest, and a timer for the backup category is between shortest and longest. | 10-08-2009 |
| 20100054352 | Correlation-based detection in a cognitive radio system - Samples are extracted from a received signal. For each of a plurality of candidate cyclic frequencies, cyclic covariance of the received signal is determined using a Fourier transform FT having a length that is less than the number of extracted samples. The frequency channel within which the signal was received is chosen for opportunistic/cognitive radio transmissions when none of the plurality of candidate cyclic frequencies exhibits a peak that exceeds a threshold, or results are transmitted for collaborative sensing. The extracted samples may be filtered and decimated prior to executing the FT, and the length of the FT depends on the number of samples that remain. Decimating is at a rate that depends on a bandwidth of the filtering. The bandwidth of filtering is determined by the lowest cyclic frequency where the signal to be detected exhibits cyclostationarity. Each of the candidate cyclic frequencies are near zero and determining the covariance employs a windowing function centered on zero cyclic frequency. | 03-04-2010 |
| 20100157972 | Network synchronization method - At least some exemplary embodiments of the invention enable a node to transmit synchronization information to other near-by nodes in a cognitive radio network during a transmission period. In one exemplary embodiment, an internal clock is compared to received synchronization information, a length of a next transmission period is set as a function of the comparing, and synchronization information is transmitted only once during the next transmission period. | 06-24-2010 |
| 20110179174 | APPARATUS IDENTIFICATION IN COEXISTENCE NETWORKING - A system for managing wireless interaction between apparatuses that may be, for example, masters in various coexistent wireless networks. An apparatus may transmit a request to a server via an Internet connection. This request may inquire as to whether other apparatuses are located proximate to the apparatus in an operational environment. The server may return information to the apparatus via the Internet informing the apparatus of other proximately-located apparatuses. The apparatus may utilize this information to communicate with the proximate apparatuses in order to coordinate collaborative operations. | 07-21-2011 |
| 20110263209 | QUIET PERIOD FORMATION AND MAINTENANCE IN RADIO SYSTEMS - A system for quiet period determination. An apparatus may listen for potential silent periods to occur in an environment, and if detected, the potential silent periods may be compared to quiet period criteria to determine if they are actual silent periods. If at least two subsequent actual silent periods are determined, the apparatus may adopt quiet period timing and duration based on the actual silent periods. Alternatively, the apparatus may establish new quiet period timing and duration based on the quiet period criteria. | 10-27-2011 |
| 20110286401 | Method and Apparatus for Cognitive Radio Coexistence - In a non-limiting and exemplary embodiment, a method is provided for sharing secondary cognitive radio resource user related information. A coexistence node receives information on network properties associated with secondary cognitive radio resource users. An upload message is generated and sent, the upload message including for a secondary user database at least information on the received network properties associated with secondary cognitive radio resource users. A location-dependent network map including at least information on network properties is generated. The network map is sent to assist one or more secondary cognitive radio resource users. | 11-24-2011 |
