Patent application number | Description | Published |
20090305286 | Method for the Identification of Suitable Fragmentation Sites in a Reporter Protein - The invention concerns a combinatorial method for the generation of new split-protein sensors, and its application towards the (β/α) | 12-10-2009 |
20100075394 | Method of Crosslinking Two Objects of Interest - The invention provides a method of crosslinking two objects of interest, comprising the steps of: i) providing a fusion protein comprising at least a first protein and a second protein, wherein both the first and the second protein are, based on their structure and function, capable of forming a covalent bond with given substrates, and which first and second proteins are of substantially non-overlapping substrate selectivity, preferably of different substrate specificity; ii) providing a first object of interest, comprising a substrate moiety for the first protein of the said fusion protein, and providing a second object of interest, comprising a substrate moiety for the second protein of the said fusion protein; and iii) reacting said first protein of the fusion protein with the substrate moiety of said first object, and reacting said second protein of the fusion protein with the substrate moiety of said second object, thereby covalently crosslinking the first object to the second object via the said fusion protein. Most prominent applications of the disclosed method are, due to the straight-forward, reliable, directional and fast crosslinking reactions: the derivatization of cells, antibodies and the crosslinking of proteins. | 03-25-2010 |
20100173384 | METHODS FOR PROTEIN LABELING BASED ON ACYL CARRIER PROTEIN - A method for labeling acyl carrier protein (ACP) fusion proteins with a wide variety of different labels is disclosed. The method relies on the transfer of a label from a coenzyme A type substrate to an ACP fusion protein using a holo-acyl carrier protein synthase (ACPS) or a homologue thereof. The method allows detecting and manipulating the fusion protein, both in vitro and in vivo, by attaching molecules to the fusion proteins that introduce a new physical or chemical property to the fusion protein. Examples of such labels are, among others, spectroscopic probes or reporter molecules, affinity tags, molecules generating reactive radicals, cross-linkers, ligands mediating protein-protein interactions or molecules suitable for the immobilization of the fusion protein. | 07-08-2010 |
20110207157 | Labelling of Fusion Proteins With Synthetic Probes - The invention relates to new proteins called alkylcytosine transferases (ACTs) derived from O | 08-25-2011 |
20120237961 | Labelling of Fusion Proteins with Synthetic Probes - The invention relates to new proteins called alkylcytosine transferases (ACTs) derived from O | 09-20-2012 |
20130130291 | Labelling of Fusion Proteins with Synthetic Probes - The invention relates to new proteins called alkylcytosine transferases (ACTs) derived from O | 05-23-2013 |
Patent application number | Description | Published |
20110002270 | BASE STATION AND METHOD FOR REDUCING ASYNCHRONOUS INTERFERENCE IN A MULTI-TIER OFDMA OVERLAY NETWORK - Embodiments of a base station and method for reducing asynchronous interference in a multi-tier OFDMA overlay network are generally described herein. In some embodiments, a lower-tier base station is configured to adjust OFDMA frame boundaries to cause frames communicated by a higher-tier to arrive within a cyclic prefix at the lower-tier base station. The lower-tier base station may also be configured to adjust OFDMA frame boundaries to cause frames communicated by a lower-tier of the network to arrive within a cyclic prefix at a higher-tier mobile station. Accordingly, frames from one tier may arrive within the cyclic prefix of another thereby reducing asynchronous interference. | 01-06-2011 |
20110002284 | MULTI-TIER NETWORK INTERFERENCE MITIGATION - In some embodiments, a femto access point comprises a baseband processor, an RF modulator/demodulator coupled to the baseband processor to modulate/demodulate data for communication within a predetermined frequency range, one or more antennas to coupled to the RF modulator/demodulator to transceive information with one or more wireless devices via a wireless communication link, and a control module to implement a femto transmission-free zone in at least one of a time domain or a frequency domain and in which the femto access point does not transmit data. Other embodiments may be described. | 01-06-2011 |
20110110229 | MULTI-RADIO COMMUNICATION BETWEEN WIRELESS DEVICES - In various embodiments, two wireless communication devices may communicate with each other using multiple protocols, by dividing the data to be communicated into multiple portions, and using each protocol to communicate different portions. The different protocols may be used simultaneously or concurrently. This multi-protocol technique may be used in several different ways to provide different types of advantages in wireless communications. | 05-12-2011 |
20120108249 | POWER CONTROL TECHNIQUE TO MITIGATE INTEREFERENCE IN MULTI-TIER NETWORKS - A method and apparatus to manage interference in a multi-cellular network is disclosed. This approach uses downlink power control to allow a serving femto access point of a plurality of femto access points to transmit signals at a first power level to ensure a quality of service level of a service provided to a first plurality of mobile stations served by the plurality of femto access points. This approach also uses the downlink power control to adjust a power level of the signals transmitted by a serving femto access point of the plurality of the femto access points to manage interference caused by the serving femto access point on a second plurality of mobile stations served by one or more macro base stations. | 05-03-2012 |
20120135763 | DYNAMIC INTERFERENCE MITIGATION FOR CELLULAR NETWORKS - A method for a wireless communication network is presented. In one embodiment, the method includes receiving, by a base station, information about one or more interfering base stations with respect to a communication channel used by a mobile station. The method includes sending silence requests to an interfering base station to reduce interference from that interfering base station with respect to the communication channel. The method further includes establishing communication with the mobile station via the communication channel. | 05-31-2012 |
20120163160 | GROUPING SMALL BURST TRANSMISSIONS FOR DOWNLINK MACHINE-TO-MACHINE COMMUNICATIONS - Briefly, in accordance with one or more embodiments, a mechanism disclosed herein groups transmissions to machine-to-machine (M2M) devices in the downlink which can significantly reduce the overhead of transmission. One or more bursts to be transmitted in the downlink to one or more respective devices are aggregated and concatenated into a concatenated burst comprising one or more sub-bursts corresponding to the one or more bursts. The concatenated burst is encoded as a single payload to be transmitted, and the payload is transmitted to the one or more devices such that the devices are capable of decoding their respective sub-bursts in the concatenated burst. | 06-28-2012 |
20130034082 | OPPORTUNISTIC DEVICE-TO-DEVICE COMMUNICATION - Embodiments of computer-implemented methods, systems, computing devices, and computer-readable media are described herein for opportunistically transitioning service flows of mobile devices between being direct and indirect. In various embodiments, a proximity between first and second mobile devices that are in wireless communication with each other may be monitored. In various embodiments, a selective transition of a service flow between the first and second mobile devices from being indirect through the radio network access node using a first radio access technology (“RAT”) to being direct using a second RAT may be facilitated, e.g., responsive to a determination that a first criterion has been met. In various embodiments, a selective transition of the service flow from being direct using the second RAT to being indirect using the first RAT may be facilitated, e.g., responsive to a determination that a second criterion has been met. | 02-07-2013 |
20130195026 | CENTRALIZED CONTROL OF INTRA-CELL DEVICE-TO-DEVICE COMMUNICATION - An apparatus and method to centrally establish and control intra-cell device-to-device connections on licensed bands of a wireless communications network are disclosed herein. An eNodeB receives a request from a first device to communicate with a second device or a request from the first device for content or service. The eNodeB schedules a device discovery between the first device and at least a candidate device. The eNodeB determines establishing the device-to-device connection between the first device and the candidate device based on a discovery report generated by one of the first or candidate device. The discovery report comprises information about signal quality of transmission from the other one of the first or candidate device that is received by the one of the first or candidate device during the scheduled device discovery. | 08-01-2013 |
20130322261 | Cell Association in Multi-Radio Access Technology Networks - One of at least two available radio access technologies may be selected for a given radio communication. For example, quality of service or network loading may be used to make the selection. | 12-05-2013 |
20140003234 | BASE STATION AND COMMUNICATION METHOD FOR MACHINE TO MACHINE COMMUNICATIONS | 01-02-2014 |
20140036793 | NETWORK ASSISTANCE FOR DEVICE-TO-DEVICE DISCOVERY - Embodiments of system and method configurations for device discovery and connection establishment in connection with use of device-to-device (D2D) and proximity-based services are generally described herein. In some examples, an evolved packet core (EPC) of a 3GPP Long Term Evolution or 3GPP Long Term Evolution-Advanced (LTE/LTE-A) network is arranged to assist D2D identification and discovery procedures at user equipment (UEs) connected to the LTE/LTE-A network. Various identification and discovery procedures may be implemented in connection with proximity detection and the establishment of communication times for the establishment of the D2D communication link, between the UEs. Accordingly, the EPC of the LTE/LTE-A network may assist the establishment of a device-to-device communication link between UEs on a wireless network employing a distinct wireless protocol (for example, a direct wireless network connection via a wireless local area network (WLAN) or wireless personal area network (WPAN)). | 02-06-2014 |
20140199969 | MOBILE DEVICE AND METHOD FOR CELLULAR ASSISTED DEVICE-TO-DEVICE COMMUNICATION - Systems and methods for configuring device-to-device (D2D) wireless communications are generally disclosed herein. One example embodiment includes a method of transmitting mobile station information, security context information, and radio resource management information to mobile stations over a primary wireless network in order to establish and operate D2D connections among the mobile stations using a secondary wireless network. Another example embodiment includes a wireless network base station having a D2D connection facilitator configured to determine configuration information for the D2D connections among the mobile stations, and a transmitter configured to transmit the configuration information to the mobile station. | 07-17-2014 |
20140206348 | NETWORK ASSISTED DEVICE-TO-DEVICE DISCOVERY FOR PEER-TO-PEER APPLICATIONS - The techniques introduced here provide for network assisted device-to-device communication for peer-to-peer applications. The techniques include registering a user's peer-to-peer application identifier with a peer-to-peer application server, registering a peer-to-peer application with a device-to-device server, sending a peer-to-peer service request to the peer-to-peer application server, and receiving network assistance in discovering a peer with the desired P2P content/service and establishing a device-to-device communication arrangement for exchange of peer-to-peer services. | 07-24-2014 |
20140219261 | OPERATOR-ASSISTED DEVICE-TO-DEVICE (D2D) DISCOVERY - A method and system for operator-assisted device-to-device (D2D) discovery is disclosed, which method may be executed as instructions on a machine, where the instructions are included on at least one computer readable medium. The method can include a transmission station in an operator network receiving a request for data service from a requesting wireless device. The transmission station can identify a serving wireless device to provide the data service for the requesting wireless device. The transmission station can transmit a device discovery message to the requesting wireless device and the serving wireless device. The device discovery message provides a device discovery period for communication via an ad-hoc, D2D network between the requesting wireless device and the serving wireless device. The ad-hoc, D2D network provides for device-to-device communication. | 08-07-2014 |
20140248901 | NETWORK-LEVEL DEVICE PROXIMITY DETECTION - A technology for network-level device proximity detection is disclosed. In an example, core network (CN) device can include computer circuitry configured to: Store user equipment (UE) information; calculate proximity between two UEs; and assist the two UEs with direct device discovery based on the calculated proximity. The core network device can include a proximity services (ProSe) server, a gateway mobile location center (GMLC), an evolved serving mobile location center (E-SMLC), or a mobility management entity (MME). | 09-04-2014 |
20140274088 | SPATIAL ALIGNMENT FOR D2D INTERFERENCE MITIGATION - Described are techniques for managing the interference produced by D2D (device-to-device) transmissions that may be used in conjunction with transmit power control but operate independently. In one technique, interference between D2D transmissions and cellular uplink transmissions using common resources as received at a base station is managed by opportunistic interference alignment and clustering of D2D devices. In another technique, interference between different D2D devices using the same resources is mitigated by base-station aided space-time interference alignment. | 09-18-2014 |
20140301270 | IDENTIFIERS FOR PROXIMITY SERVICES - Various systems and methods for providing identifiers for proximity services are described herein. A proximity server to provide identifiers for proximity services comprises: a receiving module to receive from a requester user equipment (UE) at a proximity services server, a request to connect the requester UE to a connection UE, the request including a user-defined proximity identifier that identifies the connection UE; a permission module to confirm permission for the requester UE to connect to the connection UE; and an output module to, based on the confirmation, provide a first link layer identifier (LLID) to the connection UE for use in direct discovery between the requester UE and the connection UE. | 10-09-2014 |
20140301289 | NETWORK-ASSISTED TO DIRECT DEVICE DISCOVERY SWITCH - Embodiments for providing network-assisted to direct device discovery switch are generally described herein. In some embodiments, location information is received at an evolved packet core (EPC) from at least a first and a second user equipment (UE). A network-assisted device-to-device (D2D) request is received from the first UE for establishing a D2D wireless connection with the second UE. Proximity of the first UE and the second UE are monitored. Before detecting the second UE being in proximity to the first UE, direct discovery is determined to be more resource efficient than continuing to provide network-assisted D2D discovery. An indication is provided to the first UE and the second UE to perform direct discovery based on information provided in the indication. | 10-09-2014 |
20140313979 | MULTI-RADIO COMMUNICATION BETWEEN WIRELESS DEVICES - In various embodiments, two wireless communication devices may communicate with each other using multiple protocols, by dividing the data to be communicated into multiple portions, and using each protocol to communicate different portions. The different protocols may be used simultaneously or concurrently. This multi-protocol technique may be used in several different ways to provide different types of advantages in wireless communications. | 10-23-2014 |
20140328287 | OPPORTUNISTIC DEVICE-TO-DEVICE COMMUNICATION - Embodiments of computer-implemented methods, systems, computing devices, and computer-readable media are described herein for opportunistically transitioning service flows of mobile devices between being direct and indirect. In various embodiments, a proximity between first and second mobile devices that are in wireless communication with each other may be monitored. In various embodiments, a selective transition of a service flow between the first and second mobile devices from being indirect through the radio network access node using a first radio access technology (“RAT”) to being direct using a second RAT may be facilitated, e.g., responsive to a determination that a first criterion has been met. In various embodiments, a selective transition of the service flow from being direct using the second RAT to being indirect using the first RAT may be facilitated, e.g., responsive to a determination that a second criterion has been met. | 11-06-2014 |
20150029936 | ENABLING DIRECT TRANSPORT LAYER CONNECTIVITY - A technology for a user equipment (UE) that is operable to establish direct transport layer connectivity with a selected UE. An internet protocol (IP) address of the UE can be sent to a Proximity Services (ProSe) server. A user application identification (ID) and ProSe server ID of the selected UE can be requested from an application server. A user application ID and ProSe server ID can be received from the application server. A facilitation message can be sent to the ProSe server in communication with the UE, wherein the facilitation message includes a request to facilitate direct transport layer connectivity between the UE and the selected UE for a selected application. | 01-29-2015 |
20150052239 | CONTEXT BASED SPECTRUM MANAGEMENT SYSTEM - Generally, this disclosure provides systems, devices, methods and computer readable media for context based spectrum management. A device may include a user preference determination module to determine a level-of-service preference of a user of the device, the preference associated with an application. The device may also include a user state determination module, to determine a state of the user, and a device capability determination module, to determine capabilities of the device. The device may further include an application programming interface (API) to provide the context to a cloud-based server configured to manage spectrum. The context includes the preference, the state and the capabilities. The API is further configured to receive content delivery options from the cloud-based server. | 02-19-2015 |
20150087323 | CLOUD BASED SPECTRUM MANAGEMENT - Certain embodiments herein are directed to managing wireless spectrum, which may include recommending or transmitting spectrum usage changes to one or more wireless devices. A spectrum management system comprising one or more computers may receive spectrum usage information associated with one or more wireless devices. The spectrum management system may generate a spectrum usage map based on the received information. Based on the spectrum usage map, a spectrum usage change is determined and transmitted to one or more wireless devices. The wireless devices may change their operation in accordance with the spectrum usage change. | 03-26-2015 |
20150359023 | TARGETED GROUP-BASED DISCOVERY FOR WIRELESS COMMUNICATION DEVICES - Techniques described herein may provide for device discovery of direct communication paths, to enable direct mode communication, between communication devices. The discovery of the communication paths may be based on identifiers that may be defined at the application level and included in device discovery requests. In one implementation, the identifiers may be SIP-URIs (session initiation protocol (SIP)-uniform resource identifiers (URIs)). | 12-10-2015 |
20150359033 | PATH SWITCHING PROCEDURE FOR DEVICE-TO-DEVICE COMMUNICATION - Session continuity may be maintained when communication devices transition from communicating through network infrastructure (e.g., through a cellular network) to direct mode communications (e.g., a communication path directly between two communication devices). For example, in switching from an infrastructure mode communication path to a direct mode communication path, a method may include: determining a public-facing address corresponding to the infrastructure path; replacing, for a packet that is to be transmitted over the direct mode communication path to a second communication device, a source address field of the packet with the determined public-facing address; and encapsulating the packet with source and destination address fields corresponding to the first and second communication device through the direct mode communication path respectively. | 12-10-2015 |
20160007152 | PROXIMITY DETECTION IN A DEVICE TO DEVICE NETWORK - A technology for a user equipment (UE) that is operable to communicate in a device to device (D2D) network. A proximity detection request can be communicated to an evolved packet core (EPC). The proximity detection request can include a window parameter, an identification information of a second UE, and a proximity detection signal indicating whether the proximity detection request is for proximity detection of the second UE or for establishing a D2D connection with the second UE. A proximity alert message can be received from the EPC at the window parameter. | 01-07-2016 |