R&D
With R&D projects we stay at the forefront of the technology to offer our customers the most advanced solutions.
TST wants to be an innovative company in the wireless domain. Therefore R&D activities are playing an essential role within our engineering solutions, allowing us to go beyond the state of the art and enhance our competitiveness and position on the market.
The main areas in which TST is carrying out R&D activities are mostly related to wireless communications technologies (personal networks, WLAN/WPAN, IEEE802.11x, Bluetooth, wireless sensor networks, cellular networks, etc), covering aspects such as ad hoc routing protocols, heterogeneous access devices, next generation architectures to support the Internet of the Future, interoperability and advanced hand-over techniques, multi-hop topologies and mobile applications development and advanced services.
Below are some examples of European, national and regional R&D projects in which TST is currently involved:
SITELVIÑA
SITELVIÑA is aiming at the integrated management of the whole wine production chain, combining NFC technology and wireless sensing, monitoring and control devices.
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BUTLER
BUTLER is focused on the integration of existing technologies, emphasizing pervasiveness, context-awareness and security for the Internet-of-Things.
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SEA-WEDGE
SEA-WEDGE is aiming at the development of a sea wave energy harvesting system, i.e. transforming energy from sea tides into electric energy.
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TOISE
TOISE aims at the development and validation of secure hardware and software mechanisms for low-power embedded systems.
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SICRA
SICRA plans the design, development and field validation of an innovative localization and victim rescue management system for snow avalanches.
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ARQUEO-SAR
ARQUEO-SAR develops an innovative radar system combining both SAR (synthetic-aperture radar) and GPR (ground penetrating radar) technologies.
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EXALTED
The target of the EXALTED project (EXPanding LTE for Devices) is to embed M2M communication into the current LTE system concept.
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QoSMOS
QoSMOS aims at researching, developing and integrating a cognitive radio framework to enable mobile broadband systems to improve utilisation of licensed and/or unlicensed frequency bands, by adding dynamic exploitation of under-utilised spectrum.
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Mobilia
Mobilia follows the ITU IMT-Advanced recommendations and requirements for the future wireless communication systems. One key aspect in the IMT-advanced vision is that future networks will include interoperable access systems between different radio access technologies. MOBILIA will be focused on WiMAX technology, and will discuss issues such as cross-layer techniques, cooperative schemes, scheduling techniques and heterogeneous access.
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Persia
Design and development of a platform for environmental sensor networks applied to the control and optimization of water resources.
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RESIMA
The main goal of RESIMA is to make a technical feasibility study to obtain the requirements and technical features that a wireless sensor network should manage for meteorological and environmental monitoring to determine the efficiency, reliability and profitability associated with wind farms.
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SAGER
The main goal of this project consists on creating an expert system able to gather information, both from the electric network and charging stations, and provide a business model to commercialize the surplusses in a win-win manner for all parties.
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I-SHM
Actual airplane structure health monitoring systems are based on Bragg sensor networks. This kind of networks consists on several sensors distributed over long optical fiber throughout the plane and connected to a single control point. I-SHM idea consists on deploying short fiber connections between an interrogator and a few Bragg sensors. Each interrogator will be communicated with the central node wirelessly.
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