Maria João Cardoso posted this:
Intellectual Property and Technology Manager at Instituto de Telecomunicações
Covid-19 Innovation Challenges by Innoget posted this:S-PACES. People and vehicle monitoring IoT system to control confinement and healthcare measures during COVID-19People and vehicle monitoring IoT system to control confinement and healthcare measures during COVID-19. With this SmartCities Solution, the goal is to have a tool capable of knowing the movements of people and vehicles in different parts of the city. In this way, it will be possible to evaluate compliance with the measures adopted and implement improvements in them, if necessary.
Small and Medium Enterprise
INTEGRA posted this:S-PACES. People and vehicle monitoring IoT system to control confinement and healthcare measures during COVID-19People and vehicle monitoring IoT system to control confinement and healthcare measures during COVID-19. With this SmartCities Solution, the goal is to have a tool capable of knowing the movements of people and vehicles in different parts of the city. In this way, it will be possible to evaluate compliance with the measures adopted and implement improvements in them, if necessary.
Ivan Rodriguez Rosello posted this:
Licensing Manager at Universidad de Alicante
Execom posted this:Execom IoT expertise - the perfect team to make your devices smartExecom - The perfect IoT partner to make your devices smart. Focusing on development in IoT area, our R&D department was founded in 2012. Today, we have a spin off company called WolkAbout which has developed its own smart IoT platform, but our IoT department is working in the same discipline, as well. Besides the platform, we have experience in working with AWS IoT and Microsoft Azure IoT. The main focus of Execom IoT department is the embedded part of IoT solutions, but we do not shy away from custom cloud implementation either.
Maxim Korshikov posted this:
Innovation Manager at Technoton Engineering
Universidad de Alcalá-OTRI posted this:Efficient sensing techniques for smart city applicationsThe city of the 21st century demands a set of digital services that provide citizens with improved access to resources such as transport, education, health care, energy, safety, and the environment. Giving intelligence to these services means having an extensive network of sensors and the management of information supported by the Internet of things (IoT). Wireless sensor networks present two major challenges: efficient communication and energy autonomy. Event-based sensing techniques help to optimize both by analyzing the information registered in the sensor and making it available to the network only when necessary. In the GEINTRA group, we have experience in event-based sensing techniques and their application to the field of Smart Cities.
Pulsa posted this:Weight & gas pressure IoT sensor telemetry solution with machine learning predictive inventoryPulsa provides predictive inventory via purpose-built, connected hardware and an advanced machine learning backend. We are able to understand variable consumption and tell our customers when they actually need to refill or reorder inventory, instead of repeatedly checking every item. We have built our product to address a large portion of the real-time inventory market, and we are initially focused on industrial gas cylinders. We can eliminate production down time due to depleted gas cylinders and reduce the number of cylinders held in inventory. Our solution, compared to other existing in-market solutions, is significantly more affordable (10x more affordable than existing solutions) and easier to set up (out of box set-up, does not require technical experience) than existing inventory telemetry products. It also combines the real time inventory knowledge with an advanced machine learning backend that predicts when inventory needs to be replenished and notifies end users.
Center for Technology Transfer and Commercialization of Novosibirsk State University posted this:Post-quantum cryptosystem with public keyA post-quantum public-key cryptographic system has been developed in the cryptography laboratory of the university (Novosibirsk). It is used in the Internet of things, blockchain technology, cryptocurrency, key exchange, for example, in instant messengers, or as an independent mean of protection. The cryptosystem is resistant to hacking, including a quantum computer through the use of NP-hard in a quantum sense problem. The university is looking for partners for furtherance on the Russian and international markets.
Center for Technology Transfer and Commercialization of Novosibirsk State University posted this:Resistant to hacking by a quantum computer electronic digital signatureResearchers of Novosibirsk State University have developed a revolutionary algorithm for quantum-stable digital signature based on results of fundamental research in mathematics. Moreover, they implemented the algorithm as a software prototype. The cryptographic stability of the digital signature guarantees information security when using it in e-economics, the Internet of things and other areas in the post-quantum era. The stability of the algorithm is ensured by solving the problem that is an NP-hard (non-polinomial intractable) in the quantum sense. The university is looking for partners to commercialize the technology in international markets.
UACOOPERA University of Aveiro posted this:
Technology Transfer Office at uacoopera
Universidad de Alicante posted this:Low energy Wi-Fi® communications for the IoT in a wide areaThe invention consists in a communications system to send/receive small data blocks (700 bytes maximum) between a base station and a set of Wi-Fi® interfaces without any active data link (active Wi-Fi® network connection). A base station has a coverage area between 12 km2 and 27 km2 without obstacles. The system provides broadcasting and unicasting communication modes and reduces the power consumption of Wi-Fi® interfaces as it does not require an active Wi-Fi® connection. The technology can be used in applications for the Internet of Things (IoT) in order to interchange data between sensors and Internet using a single Internet connection in the base station.
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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.