Abstract: The present disclosure relates to a waveguide gasket arrangement arranged for electrically sealing a waveguide interface between a first waveguide end and a second waveguide end, where the waveguide gasket arrangement comprises a first plurality of electrically conducting members connected to a first common structure along a first circumference. The waveguide gasket arrangement further comprises a second plurality of electrically conducting members connected to a second common structure along a second circumference.

Abstract: The present invention generally relates to a management of a wireless interface of a device; the management comprises: monitoring of at least one component of the device, other than a wireless network element; switch a power state of the wireless interface to another power state according to the monitored activity.

Abstract: The present invention generally relates to a management of a wireless interface of a device. The management of the wireless interface includes monitoring of at least one component of the device, other than a wireless network element followed by switching a power state of the wireless interface to another power state according to the monitored activity.

Abstract: Disclosed is a sintering system for manufacturing a three-dimensional object from sinterable powder. The system comprises a build chamber with a movable floor and four walls, an energy assembly disposed above the build chamber and which comprises at least one energy source adapted to emit an energy beam. The system further comprises a feeding assembly connected to the build chamber for providing sinterable powder to the build chamber and a powder distribution device connected to the feeding assembly for distributing sinterable powder in the build chamber. The build chamber further comprises at least one opening in at least one wall, below which the movable floor can be lowered, and a pneumatic assembly connected to the build chamber for transporting powder away from the build chamber through the at least one opening.

Abstract: The present invention relates to a method of preparing a lip-type shaft seal for, a method of installing a lip-type shaft seal on a shaft of an underwater application, and a lip-type shaft seal therefor. Exemplary embodiments, can be especially advantageous as they can provide a lip-type shaft seal with a point of noncontinuity having such form-locking elements that the actual installation of the seal around the shaft under water may be performed by using the form-locking elements without the use of a habitat.

Abstract: Method of spectrum allocation in a wireless network, comprising the steps, performed by a first access point connected to said wireless network and operating at a first spectrum configuration, chosen from a finite set of spectrum configurations, each spectrum configuration in the set comprising a channel center frequency, a channel width and a transmit power, of: a) estimation of a performance indicator of at least one first link connecting the first access point and at least one first client of said first access point, for at least one spectrum configuration among said finite set of spectrum configurations; and b) switching the operation of the first access point to a new spectrum configuration identified among said finite set of spectrum configurations on the basis of a utility parameter determined at least on the basis of the estimated performance indicator.

Abstract: Disclosed is a sintering system for manufacturing a three-dimensional object from sinterable powder. The system comprises a build chamber with a movable floor and four walls, an energy assembly disposed above the build chamber and which comprises at least one energy source adapted to emit an energy beam. The system further comprises a feeding assembly connected to the build chamber for providing sinterable powder to the build chamber and a powder distribution device connected to the feeding assembly for distributing sinterable powder in the build chamber. The build chamber further comprises at least one opening in at least one wall, below which the movable floor can be lowered, and a pneumatic assembly connected to the build chamber for transporting powder away from the build chamber through the at least one opening.

Abstract: A method of selecting antenna segments for transmission and/or reception in a MIMO wireless transmission system using sectorized directional antennas, includes the steps of selecting, from an initial set of ranked link antenna patterns, a link antenna pattern having the best average rank, at predetermined time intervals, successively selecting a subset of link antenna patterns having average ranks within a predetermined distance to the best average rank, determining an average link performance of the link antenna patterns selected in the preceding step, determining an average rank of the link antenna patterns, for which the average link performance has been determined in the preceding step, selecting the link antenna pattern having the best average rank, and repeating the process at the next predetermined time interval.

Abstract: The present invention generally relates to a management of a wireless interface of a device. The management of the wireless interface includes monitoring of at least one component of the device, other than a wireless network element followed by switching a power state of the wireless interface to another power state according to the monitored activity.

Abstract: A processing device equips a controller that is intended for providing data transmission schedules into multi-slot frames, based on a conflict graph representative of wireless links between nodes that interfere when transmitting simultaneously on a same radio channel, for nodes linked therebetween and belonging to a multi-hop wireless network using a MAC protocol supporting a slotted access. This processing device comprises a processing means arranged, during each frame, for updating the conflict graph from interference information provided by the nodes during this frame, and for refining this conflict graph from detection of hidden interferer nodes based on detected failures of data transmissions of the links between these nodes during at least the previous frame.

Abstract: The invention concerns a method for optimizing antenna pattern assignment for a first wireless communication device forming a wireless network with at least one second wireless communication device, each of said communication device being equipped with a multi-sector antenna, an antenna pattern being a combination of said antenna sectors, said communication devices being adapted for sending a request and for receiving a response using a current antenna pattern assignment, said method comprising a step of: evaluating by said first communication device a first value; sending by said first communication device to said second communication device a broadcast request comprising said value receiving by said first communication device, a response to said broadcast request, said response being sent by said second communication device, said response depending on a second value evaluated by said second device; Switching or not, by said first communication device, to a new antenna sector assignment depending on said

Abstract: The invention concerns a method for measuring channel state information of multiple transmission/reception modes in a wireless network comprising a plurality of nodes, said modes being defined by frequency channels and/or antenna patterns, said wireless network comprising a MAC (Media Access Control) layer and every node comprising at least one MAC queue, comprising the steps of:periodically sending broadcast probe packets by at least one node called transmitter node, using a pre-determined and globally known period and predetermined sequence of transmission modes, each of said probe packets containing the transmission mode used for its transmission a sequence number of the transmission mode in the pre-determined sequence of transmission modes and a timestamp value containing the time said broadcast probe packet was buffered at the MAC queue of the transmitter node; measuring, by at least one second node called receiving node receiving a broadcast probe packet , channel state information of a transmission/rec

Abstract: A method of selecting antenna segments for transmission and/or reception in a MIMO wireless transmission system using sectorized directional antennas, includes the steps of selecting, from an initial set of ranked link antenna patterns, a link antenna pattern having the best average rank, at predetermined time intervals, successively selecting a subset of link antenna patterns having average ranks within a predetermined distance to the best average rank, determining an average link performance of the link antenna patterns selected in the preceding step, determining an average rank of the link antenna patterns, for which the average link performance has been determined in the preceding step, selecting the link antenna pattern having the best average rank, and repeating the process at the next predetermined time interval.

Abstract: Method of spectrum allocation in a wireless network, comprising the steps, performed by a first access point connected to said wireless network and operating at a first spectrum configuration, chosen from a finite set of spectrum configurations, each spectrum configuration in the set comprising a channel center frequency, a channel width and a transmit power, of: a) estimation of a performance indicator of at least one first link connecting the first access point and at least one first client of said first access point, for at least one spectrum configuration among said finite set of spectrum configurations; and b) switching the operation of the first access point to a new spectrum configuration identified among said finite set of spectrum configurations on the basis of a utility parameter determined at least on the basis of the estimated performance indicator.

Abstract: The present invention relates to a method for measuring link cost metrics and evaluating their accuracy with respect to reference measure of link quality in a communication network, said method comprising the steps of: during a given time interval, simultaneously transmitting several types of probe packets and data traffic, and estimating a plurality of link cost metrics (metricA, metricB, . . . , metricN) and a reference measure of link quality for a set of communication links; evaluating the accuracy of the estimated link cost metrics (metricA, metricB, . . . , metricN) by computing their correlation with the reference measure of link quality; and collecting cross-layer information for each probe packet.

Abstract: A processing device equips a controller that is intended for providing data transmission schedules into multi-slot frames, based on a conflict graph representative of wireless links between nodes that interfere when transmitting simultaneously on a same radio channel, for nodes linked therebetween and belonging to a multi-hop wireless network using a MAC protocol supporting a slotted access. This processing device comprises a processing means arranged, during each frame, for updating the conflict graph from interference information provided by the nodes during this frame, and for refining this conflict graph from detection of hidden interferer nodes based on detected failures of data transmissions of the links between these nodes during at least the previous frame.

Abstract: A method of adaptively controlling the data rate in a transmission channel carrying a packet data signal corresponding to a data stream of variable data rate is suggested. In accordance with the method the variability of the transmission channel, the data rate requirement of the data stream, and the capacity of the transmission channel are determined. Then, the data rate is adapted so that the transmission channel capacity exceeds the data rate requirement of the data stream, and the next time instant for data rate probing and adaptation is determined based upon the transmission channel variability and data stream rate requirement.

Abstract: The invention concerns a method for synchronizing clocks of a set of nodes in a TDMA (“Time Division Multiple Access”) communication network comprising a plurality of nodes, among which some called time reference (TR) nodes are synchronized to a common time reference through a predetermined out-of-band synchronization mechanism, other nodes being called non-TR nodes, each node comprising an internal clock, characterized in that it comprises the steps of: transmitting, at the level of at least one of said TR nodes, a broadcast beacon packet during a given time slot of sub-frames, each sub-frame comprising a plurality of time slots; propagating among the remaining nodes said beacon packet using the slotted structure of the TDMA protocol, each node being pre-assigned a conflict-free time slot in a sub-frame to broadcast said beacon packet received from another node in a previous slot of said sub-frame; and updating in at least two of said non-TR nodes the internal clock based on an updated offset estimate, up

Abstract: The invention concerns a method for optimizing antenna pattern assignment for a first wireless communication device forming a wireless network with at least one second wireless communication device, each of said communication device being equipped with a multi-sector antenna, an antenna pattern being a combination of said antenna sectors, said communication devices being adapted for sending a request and for receiving a response using a current antenna pattern assignment, said method comprising a step of: evaluating by said first communication device a first value; sending by said first communication device to said second communication device a broadcast request comprising said value receiving by said first communication device, a response to said broadcast request, said response being sent by said second communication device, said response depending on a second value w evaluated by said second device; Switching or not, by said first communication device, to a new antenna sector assignment depending on sai

Abstract: The invention concerns a method for measuring channel state information of multiple transmission/reception modes in a wireless network comprising a plurality of nodes, said modes being defined by frequency channels and/or antenna patterns, said wireless network comprising a MAC (Media Access Control) layer and every node comprising at least one MAC queue, comprising the steps of: periodically sending broadcast probe packets by at least one node called transmitter node, using a pre-determined and globally known period and predetermined sequence of transmission modes, each of said probe packets containing the transmission mode used for its transmission a sequence number of the transmission mode in the pre-determined sequence of transmission modes and a timestamp value containing the time said broadcast probe packet was buffered at the MAC queue of the transmitter node; measuring, by at least one second node called receiving node receiving a broadcast probe packet, channel state information of a transmission/rec