Universidad de Alcalá-OTRI posted this:Cooperative procedure SDN-repair network for faulty paths and network bridgeThe Research Group in Engineering of Telematic Services of the University of Alcalá, presents the following procedure that allows, in a network of transparent bridges equipped with learning functionality of paths of type ARP-Path, in cooperation with the SDN controller, to repair all the paths in use that pass through a certain link when it fails. In this way, when a link or other cause fails, and a path to a bridge terminal has to be repaired, this one informs the controller, sending a Packetln OpenFlow package containing the destination address to be repaired. Its most obvious application is in switches for Software Defined Networks (SDN). The group seeks to reach licensing agreements, commercial or of collaboration agreements with companies from the telecommunications sector, electronic devices and / or computer applications that establish the communications between transparent bridges.
Universidad de Alcalá-OTRI posted this:Establishment, repair and delating procedure of disjoint multiple paths, redirection of frames and network bridge. Multiple disjoint Paths (MDP).The Research Group in Telematics Services Engineering of Alcalá University presents a procedure that solves in a simple and distributed way, without route calculations, the problem of establishing fast multiple paths between pairs of bridges bordering a network of bridges that route terminals’ traffic connected to them. The group seeks to reach license agreements, commercial agreements with technical assistance or collaboration agreements with companies in the telecommunication sector, for the application of its technology in Ethernet switches for business networks and data centers.
Universidad de Alcalá-OTRI posted this:Intelligent regulation system of pedestrian crossings by monitoring the waiting areas and adaptive traffic light controlThe research group Intelligent Vehicles and Traffic Technologies of the Automation Department of the University of Alcalá has developed a system that allows the intelligent control of the opening and closing times of a traffic light that governs a pedestrian crossing, especially in urban areas. It is a road safety system that ensures that pedestrian traffic at pedestrian crossings is carried out safely, while optimizing the opening and closing times of traffic lights, achieving an improvement in traffic flow in urban areas. For this purpose, the monitoring of waiting areas for pedestrian crossings is carried out by means of a stereoscopic vision system with infrared illumination. The images provided by the stereoscopic vision system are processed by a computer, obtaining information regarding the presence of pedestrians in the waiting areas. This information is used to act on a traffic light that controls the pedestrian crossing. The group is looking for licensing agreements, technical cooperation agreements, manufacturing agreements and commercial agreements with technical assistance with companies in the sector of transport infrastructure and traffic safety as well as public institutions, such as municipalities and councils.
Universidad de Alcalá-OTRI posted this:Procedure of stablishment, erasing of paths and forwarding frames for TCP transport conections and network bridge.The Telematic Services Engineering research group of the University of Alcalá, in collaboration with IMDEA NETWORKS, has developed a mechanism for advanced TCP-Path Ethernet switches that explores a network of transparent bridges to establish a specific path for each new TCP connection established between two terminals. The main applications of this Ethernet switch technology are networks of data centers and computer networks in general, audio-video bridges and other types of transparent Ethernet bridges. The group is looking for companies in the telecommunications sector with the aim of reaching technical collaboration agreements, commercial agreements or patent licenses.
Universidad de Alcalá-OTRI posted this:Novel Synchronization Process for Multi-carrier or Single-carrier CommunicationsThe research group “Communications, Multirate Systems, and Biomedical Engineering” of the University of Alcala presents a novel synchronization procedure for multicarrier or single carrier systems for narrowband and broadband communications. This procedure allows a precise estimation of the symbol timing offset (STO), and a coarse estimation of carrier frequency offset (CFO). The procedure is based on the inclusion of symmetric extensions in the transmitted symbols for the synchronization, which makes it useful not only for communications systems based on the discrete Fourier transform, but also for transceivers based on the discrete cosine transform (DCT). Among its main applications are communications through single-mode optical fiber, powerline communications, wireless and wireline systems, and in general, all the techniques that use multicarrier and single carrier modulations. The group seeks companies from the telecommunications sector to sign technical cooperation agreements, commercial agreement with technical assistance and patent licensing agreements.
RAMOT at Tel Aviv University Ltd. posted this:Compressive Sensing in Radar DetectionAn efficient method for radar detection of sparse targets using compressive sensing. Compressive sensing allows transmission of a single radar pulse for velocity determination and Doppler detection of targets Project ID : 7-2011-192
RAMOT at Tel Aviv University Ltd. posted this:Subharmonic Wireless Locking of THz transmitterSubharmonic Wireless Locking of THz transmitter Project ID : 7-2014-858
RAMOT at Tel Aviv University Ltd. posted this:Delayed Dictionary CompressionData compression is a preferred solution, since there is no need to dig in the ground for many kilometers in order to build new high bandwidth links. The Delayed Dictionary Compression (DDC) family of algorithms was invented by Prof. Yossi Matias and Mr. Raanan Refua. The motivation was to release the bottleneck of low level infrastructures - data transfer links. Current data compression techniques for packet networks allow a good compression and a poor latency, or poor compression ratio and a good latency. Project ID : 4-2012-319
RAMOT at Tel Aviv University Ltd. posted this:Compressed lightfield imagingCompressed lightfield imaging Project ID : 7-2013-577
RAMOT at Tel Aviv University Ltd. posted this:Algorithm for User Activity AnticipationAlgorithm for User Activity Anticipation Project ID : 4-2007-38
RAMOT at Tel Aviv University Ltd. posted this:localization using TOA from Multipathlocalization using TOA from Multipath Project ID : 4-2012-335