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:Cancellation of Non-linear Interference in Optical Fiber CommunicationCancellation of Non-linear Interference in Optical Fiber Communication Project ID : 7-2013-675
Research & Technology Organization
IMDEA Water Institute posted this:Water and soil laboratory with accreditation ISO 17025 ENIMDEA Water labs joined the Laboratory and Infrastructure Network of the Community of Madrid in 2009, with reference number 267. The labs perform several physico-chemical, microbiological and chromatographic analyses associated with quality control of water bodies and soils. The IMDEA laboratories are currently engaged in the application process for formal acknowledgement of technical competence as a laboratory for water analysis by ENAC (National Accreditation Entity) accreditation, to ensure confidence in test results: Accreditation ISO 17025 EN. For the determination of the following parameters: pH, conductivity, suspended solids, DQO, DBO5, total phosphorus and TKN (Total Kjeldahl Nitrogen).
Universidad de Alcalá-OTRI posted this:Distributed characterization system and method of variations of the refractive index of an optical fiber.The Photonics Research Group of Alcalá University has developed a method and a system that both allow to take at the same time, distributed measures of deformation and temperature, derived from the laser source, vibrations…, based on a ɸ -OTDR system with limited elements and therefore reducing the cost of the sensor system. The group seeks to reach licensing, cooperation and commercial agreements with telecommunications companies or sensing and distributed characterization of optical fiber enterprises.
UNIVERSIDAD DE ALICANTE posted this:Novel and simple procedure for dispersing graphene derivatives in chemically curable resins.The Laboratory of Adhesion and Adhesives of the University of Alicante and the company Dental Global Training, have developed a new procedure to incorporate efficiently graphene derivatives (nanofibers, nanosheets, nanoparticles) in chemically cured resins by using an in situ polymerization technique. The method is very simple and fast, it provides an excellent dispersion of the graphene derivatives in both the solid components of the resin and in the cured polymer matrix, and is entirely friendly with the environment. The novel method does not require the use of organic solvents nor water, ultrasounds, and high pressure/temperature. The resulting resin composites show excellent mechanical properties, good wear resistance, easy manipulation and increase the insolubility in oral fluids, and therefor they have special interest in applications in odontology, traumatology and non-medical applications too (automobile, construction, civil engineering, aeronautics, space engineering, electronics and optics). It is looking for companies interested in acquiring this technology for its commercial exploitation.
UNIVERSIDAD DE ALICANTE posted this:New process for the manufacture of electrodes from superporous nanostructured carbon materialsSpanish University have developed a process for the manufacture of electrodes from superporous nanostructured carbon materials. The process uses electrospraying technique to deposit a suspension of a carbon material over a collector. This method facilitates processing superporous nanostructured carbon materials due to its high efficiency and less complexities compared to conventional techniques. The electrodes obtained can be used in energy storage or analytical sensors in commercial devices.
Small and Medium Enterprise
Technology Transfer OfficeView Profile
Yissum - Research Development Company of the Hebrew University posted this:New Generation of DNA-Based Circuits and Electrical DevicesNew Generation of DNA-Based Circuits and Electrical Devices Project ID : 31-2016-4289
Ranganath Kulkarni posted this:
RAMOT at Tel Aviv University Ltd. posted this:Subharmonic Wireless Locking of THz transmitterSubharmonic Wireless Locking of THz transmitter Project ID : 7-2014-858
Spanish National Research Council posted this:Energy harvesting from ambient vibrations for wireless sensors applicationResearchers from the Spanish National Research Council at the Barcelona Microelectronics Institute (IMB-CNM) have recently developed a mechanical energy harvesting device by using a low-cost microelectronic fabrication process. The device acts as an electrical generator and is driven by environmentally-available mechanical energy such as ambient vibrations. Due to its flexibility and small size, it is of easy integration as power generator permitting the provision of full power autonomy to any wireless sensor node during its lifecycle into a network infrastructure following the philosophy “install and forget”. Industrial partners are being sought to exploit the existing know-how through a patent license agreement.
Technology Transfer Office
CITCEA-UPC posted this:Technology transfer in renewable energies, power electronics, energy control, electrical vehicles...CITCEA-UPC is a technology transfer center which was created in 2001 within the UPC (Universitat PolitÃ¨cnica de Catalunya, BarcelonaTech), and it is specialized in responding to electrical and electronic technological challenges. The aim of the center is to receive these challenges and solve them by creating a functional prototype that will serve the companies to eventually develop a new commercial product or to solve a new technological problem created by the growth and evolution of the society.
Technology Transfer Office
UNIVERSIDAD DE BURGOS posted this:Device for detecting and monitoring lactate in sweatElectronic device capable of detecting lactic acid in sweat, in real time, through screen-printed electrodes. The device includes an enzymatic biosensor capable of measuring the specific activity of the enzyme lactate oxidase on lactic acid, substance generated during physical exercise and partly excreted through sweat.
Universidad de Alcalá-OTRI posted this:Intelligent Transport System for the optimzation of indoor shared resources: routes, communication channels and sensor networks.GEINTRA is a research group from the Electronics Department of the University of Alcala. The group offers solutions for route selection and digital control with adaptive sampling. It is an useful system for transport optimization and functionality of indoor mobile units. With competitive advantages such as travel time optimization, selective use of the wireless communication channel and energy cost reduction for sensors distributed in the environment. The group is looking for industrial automation companies to achieve technical cooperation agreements and licensing agreements.